CN112966839B - Information model management system applied to construction waste management - Google Patents

Abstract

The invention discloses an information model management system applied to construction waste management, which comprises a user registration management module, a user input module, a CWIM database, a processor, a yield estimation module, an environment assessment module, a current situation simulation module, a flow management and control unit, a quality management and control unit, a transportation management and control unit and a cost management and control unit. The flow control unit is used for establishing a processing flow according to the information input by the participants and monitoring the flow progress in real time; the quality control unit is used for controlling the treatment quality of the construction waste; the transportation control unit is used for controlling the transportation condition of the construction waste in the transportation process; the cost control unit is used for controlling the treatment cost of the construction waste. The information model management system applied to the construction waste management provided by the invention can comprehensively monitor the construction waste treatment process, ensure the standardization of transportation operation, reduce environmental pollution and increase the flexibility of transportation scheduling.

Description

Information model management system applied to construction waste management

Technical Field

The invention relates to an information model management system applied to construction waste management.

Background

The construction waste refers to the collective name of dregs, waste concrete, waste masonry and other wastes generated by people in the production activities of construction industries such as removal, construction, decoration, repair and the like. Classifying the construction waste according to the generation sources, wherein the construction waste can be divided into engineering residue soil, decoration waste, removing waste, engineering slurry and the like; the construction waste can be classified according to the composition, and can be divided into slag soil, concrete blocks, crushed stone blocks, brick and tile fragments, waste mortar, slurry, asphalt blocks, waste plastics, waste metals, waste bamboo and wood and the like. These materials do not help the construction itself, but are substances produced during the construction process, and require corresponding treatments to achieve the desired construction of the engineering project, and are an integral process, so that the consideration of the links is more important.

The construction waste is stacked at will and is easy to generate potential safety hazard, and meanwhile, the construction waste can pollute water resources, air and soil. Existing construction waste management has defects and dead zones, including: the slag soil is discharged out of the soil without disorder, blind areas exist in slag soil transportation vehicle team supervision, the quantity and the transfer quantity of transfer wharfs are insufficient, and the slag soil tail end disposal supervision loss and the like are realized.

Disclosure of Invention

The invention provides an information model management system applied to construction waste management, which adopts the following technical scheme:

an information model management system for construction waste management, comprising:

the user registration management module is used for registering the participants participating in the construction waste treatment process, and the participants are connected to the system through registration information login after registration;

the user input module is used for inputting information related to the own party by the participator in the construction waste treatment process;

the CWIM database is used for storing information input by the participants;

the processor is used for carrying out processing operation on the information in the CWIM database according to the processing request;

the yield estimation module is used for analyzing the information input by the participants through the information statistics function so as to estimate the yield and the variety of the construction waste;

the environment evaluation module is used for analyzing the influence of the construction waste on the environment;

the current situation simulation module is used for processing information input by the participants through the processor, creating a whole process of real-time operation of building waste generation, transportation and disposal, and providing various embodiments;

the flow control unit is used for establishing a processing flow according to the information input by the participants and monitoring the progress of the flow in real time;

the quality control unit is used for controlling the treatment quality of the construction waste;

the transportation control unit is used for controlling the transportation condition of the construction waste in the transportation process;

the cost control unit is used for controlling the treatment cost of the construction waste;

the output estimation module, the environment estimation module, the current situation simulation module, the flow control unit, the quality control unit, the transportation control unit and the cost control unit store the processed data in the CWIM database.

Further, the participants include:

the construction unit is a building waste generating end;

a transport unit for transporting construction waste;

the transfer unit is used for providing transfer service for the construction waste;

the resource utilization unit can utilize resources for the construction waste;

the construction unit, the transportation unit, the transfer unit and the resource utilization unit input the information related to the construction unit, the transportation unit, the transfer unit and the resource utilization unit into the CWIM database for subsequent calling.

Further, the information input by the participant through the user input module includes: account information, video monitoring data, transport routes, detection classification information, redundancy amount, metering weighing information and cost information;

the flow control unit establishes a processing flow according to the information input by the participants, sends the information to the processor for analysis, processes the information and returns the result to the CWIM database, and the flow control unit also monitors the progress of the flow in real time.

Further, the information model system applied to the construction waste management further includes:

the docking module is used for connecting an external supervision department;

the external supervision department can consult the data in the CWIM database to supervise the construction waste treatment process after accessing the system through the docking module.

Further, the participants input through the user input module: user business license, waste disposal license, waste detection information, waste disposal target and disposal site information;

the quality control unit sends the information to the processor for analysis to obtain the waste classification mark, the waste detection report and the waste disposal implementation condition.

Further, the quality control unit includes:

and the data statistics module is used for counting the terminal treatment destination condition of the construction waste.

Further, the participants input through the user input module: user business license, transport equipment basic information, carrying capacity, unloading capacity, environmental protection equipment, planned transport route, metering weighing information and video monitoring information;

the transportation management and control unit sends the information to the processor for analysis to obtain a violation record checking result, an overload information verification result, an environmental protection facility installation condition, a transportation route positioning condition and a transportation completion condition.

Further, the participants input through the user input module: user account information, waste disposal amount, waste transportation distance, disposal cost, and transportation cost;

the cost management and control unit sends the information to the processor for analysis to obtain disposal cost, transportation cost and delivery completion.

Further, the information model management system applied to the construction waste management further includes:

and the asset management module is used for tracking the states of equipment and facilities involved in the construction waste treatment process according to the history record of the establishment work so as to pre-judge the applicable states of the equipment and facilities in advance.

Further, the information model management system applied to the construction waste management further includes:

the space management module is used for processing the space change request to reasonably arrange various application requirements, wherein the application requirements comprise traffic scheduling and storage space arrangement, and the space management module records the use, renting and renting-out conditions of the space so as to realize the overall process management of the space.

The information model management system for the construction waste management has the advantages that the provided information model management system for the construction waste management can comprehensively monitor the construction waste treatment flow, ensure the standardization of transportation operation, reduce environmental pollution and increase the flexibility of transportation scheduling.

The invention has the advantages that the provided information model management system applied to the construction waste management counts the yield of the construction waste from the source, increases the comprehensiveness of statistical data and improves the reliability of the later yield prediction. And the terminal disposal direction of the construction waste is tracked and counted for a long time, so that the utilization rate of waste resources is improved, the environmental pollution is controlled, and the environment is protected.

Drawings

Fig. 1 is a schematic diagram of an information model management system applied to construction waste management of the present invention.

Information model management system for construction waste management: the system comprises a user registration management module 10, a user input module 20, a CWIM database 30, a processor 40, a yield estimation module 50, an environment estimation module 60, a current situation simulation module 70, a flow management unit 80, a quality management unit 90, a transportation management unit 100, a cost management unit 110, a docking module 120, an asset management module 130, and a space management module 140.

Detailed Description

The invention is described in detail below with reference to the drawings and the specific embodiments.

Fig. 1 shows an information model management system applied to construction waste management according to the present invention, which mainly comprises: the system comprises a user registration management module 10, a user input module 20, a cwm (Construction Waste Information Modeling, construction waste information model) database 30, a processor 40, a yield estimation module 50, an environment estimation module 60, a current situation simulation module 70, a flow management unit 80, a quality management unit 90, a transportation management unit 100 and a cost management unit 110. The user registration management module 10 is used for registering and registering the participants in the construction waste treatment process, and the participants are connected to the system through registration information after registration and registration. In the invention, the participants comprise a construction unit, a transportation unit, a transfer unit and a resource utilization unit. The construction unit is the building waste generating end. The transportation unit is used for transporting construction waste. The transfer unit is used for providing transfer service for the construction waste. The resource utilization unit can utilize resources for the construction waste. The user input module 20 is used for the participants to input information related to the own during the construction waste treatment. The cwmm database 30 is used to hold information entered by the participants. The construction unit, the transportation unit, the transfer unit and the resource utilization unit input information related to themselves to the cwmm database 30 for subsequent recall. The processor 40 is configured to perform a processing operation on the information in the cwm database 30 according to the processing request. The yield estimation module 50 analyzes the information input from the participants through the information statistics function to estimate the yield and type of construction waste. The environmental assessment module 60 is used to analyze the impact of construction waste on the environment. Specifically, the environmental assessment module 60 analyzes the performance of the construction waste and assesses the environmental impact of the construction waste disposal in terms of water source, air, soil. The presence simulation module 70 is used to process the information entered by the participants through the processor 40, create a real-time operational overall process of construction waste generation, transportation, disposal, and provide various embodiments. The flow management and control unit 80 is used for establishing a processing flow according to information input by the participants and monitoring the progress of the flow in real time. The quality control unit 90 is used for controlling the treatment quality of the construction waste. The transportation control unit 100 is used for controlling the transportation condition of the construction waste during the transportation process. The cost management and control unit 110 is used for managing and controlling the treatment cost of the construction waste. The yield estimation module 50, the environment estimation module 60, the current situation simulation module 70, the process control unit 80, the quality control unit 90, the transportation control unit 100, and the cost control unit 110 store the processed data in the cwmm database 30.

As a preferred embodiment, the information entered by the participant via the user input module 20 comprises: account information, video monitoring data, transportation routes, detection classification information, redundancy amount, metering weighing information and cost information. The flow control unit 80 establishes a processing flow according to the information input by the participants, sends the information to the processor 40 for analysis, and the processor 40 processes the information and returns the result to the cwmm database 30, and the flow control unit 80 also monitors the progress of the flow in real time.

As a preferred embodiment, the information model system applied to the construction waste management further comprises: docking module 120.

The docking module 120 is used to connect to an external regulatory authority. The external supervision department can review the data in the CWIM database 30 to supervise the construction waste treatment process after accessing the system through the docking module 120. It is understood that external regulatory authorities include residential authorities, public security authorities, environmental authorities, and business authorities, among others. These departments dock their own management platform to an information model management system applied to the construction waste management through the docking module 120, so that each link in the construction waste treatment process can be monitored.

As a preferred embodiment, the participants enter via the user input module 20: user business license, waste disposal license, waste detection information, waste disposal target and disposal site information. The quality control unit 90 transmits the information to the processor 40 for analysis to obtain a waste classification flag, a waste detection report, and a waste disposal implementation.

Specifically, the quality control unit 90 performs quality control on the construction waste through the steps of information check, expected disposal amount verification, sampling detection, classification number, disposal tracking, and the like.

In the present invention, the quality control unit 90 includes: and a data statistics module. The data statistics module is used for counting the terminal treatment destination conditions of the construction waste. The terminal treatment direction of the construction waste is tracked and counted for a long time through the data statistics module, the recycling utilization rate of the construction waste is improved, the environmental pollution is controlled, and the environment is protected.

As a preferred embodiment, the participants enter via the user input module 20: user business license, transportation equipment basic information, carrying capacity, unloading capacity, environmental protection equipment, planned transportation route, metering weighing information and video monitoring information. The transportation management and control unit 100 transmits the above information to the processor 40 for analysis to obtain the check result of the violation record, the check result of the overload information, the installation condition of the environmental protection facility, the positioning condition of the transportation route and the transportation completion condition.

Specifically, in the transportation management process, the transportation management and control unit 100 manages and controls the transportation process through the steps of transportation equipment inspection, information check, metering and weighing inspection (overload prevention), video monitoring, route positioning, area scheduling, and the like.

As a preferred embodiment, the participants enter via the user input module 20: user account information, waste disposal amount, waste transportation distance, disposal cost, and transportation cost. The cost management unit 110 sends the above information to the processor 40 for analysis to obtain disposal costs, transportation costs and delivery completion.

The cost management and control unit 110 performs cost analysis and control on the fees generated during transportation through the steps of cost information analysis, information check, quotation confirmation, fee calculation, information confirmation, service settlement, and the like.

As a preferred embodiment, the information model management system applied to construction waste management further includes: an asset management module 130 and a space management module 140.

The asset management module 130 is configured to track the states of equipment and facilities involved in the construction waste treatment process according to the history of the building work so as to pre-judge the applicable states in advance, thereby realizing procedural management. The space management module 140 is configured to process the request for space change to reasonably arrange various application requirements, where the application requirements include traffic scheduling and storage space arrangement, and the space management module 140 records the use, renting and renting situations of the space, so as to implement overall process management of the space.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be appreciated by persons skilled in the art that the above embodiments are not intended to limit the invention in any way, and that all technical solutions obtained by means of equivalent substitutions or equivalent transformations fall within the scope of the invention.

Claims (6)

1. An information model management system applied to construction waste management, comprising:

the user registration management module is used for registering and registering the participants participating in the construction waste treatment process, and the participants are connected to the system through registration information login after registration and registration;

the user input module is used for the participants to input information related to the own side in the construction waste treatment process;

the CWIM database is used for storing information input by the participants;

the processor is used for carrying out processing operation on the information in the CWIM database according to the processing request;

the yield estimation module is used for analyzing the information input by the participants through an information statistics function so as to estimate the yield and the variety of the construction waste;

the environment evaluation module is used for analyzing the influence of the construction waste on the environment;

a present simulation module for processing the information input by the participants through the processor, creating a real-time operation whole process of building waste generation, transportation and disposal to provide various embodiments;

the flow control unit is used for establishing a processing flow according to the information input by the participants and monitoring the progress of the flow in real time;

the quality control unit is used for controlling the treatment quality of the construction waste;

the transportation control unit is used for controlling the transportation condition of the construction waste in the transportation process;

the cost control unit is used for controlling the treatment cost of the construction waste;

the yield estimation module, the environment estimation module, the current situation simulation module, the flow control unit, the quality control unit, the transportation control unit and the cost control unit store processed data in the CWIM database;

the participants include:

the construction unit is a building waste generating end;

a transport unit for transporting construction waste;

the transfer unit is used for providing transfer service for the construction waste;

the resource utilization unit can utilize resources for the construction waste;

the construction unit, the transportation unit, the transfer unit and the recycling unit input information related to the construction unit, the transportation unit, the transfer unit and the recycling unit to the CWIM database for subsequent calling;

the information input by the participant through the user input module comprises: account information, video monitoring data, transport routes, detection classification information, redundancy amount, metering weighing information and cost information;

the flow control unit establishes a processing flow according to the information input by the participant, sends the information to the processor for analysis, processes the information and returns a result to the CWIM database, and monitors the progress of the flow in real time;

the participants input through the user input module: user business license, waste disposal license, waste detection information, waste disposal target and disposal site information;

the quality control unit sends the information to the processor for analysis to obtain a waste classification mark, a waste detection report and a waste treatment implementation condition;

the quality control unit comprises:

and the data statistics module is used for counting the terminal treatment destination condition of the construction waste.

2. The information model management system applied to construction waste management according to claim 1, wherein,

the information model system applied to the construction waste management further comprises:

the docking module is used for connecting an external supervision department;

the external supervision department can review the data in the CWIM database after accessing the system through the docking module so as to supervise the construction waste treatment process.

3. The information model management system applied to construction waste management according to claim 1, wherein,

the participants input through the user input module: user business license, transport equipment basic information, carrying capacity, unloading capacity, environmental protection equipment, planned transport route, metering weighing information and video monitoring information;

and the transportation management and control unit sends the information to the processor for analysis to obtain a violation record checking result, an overload information verification result, an environmental protection facility installation condition, a transportation route positioning condition and a transportation completion condition.

4. The information model management system applied to construction waste management according to claim 1, wherein,

the participants input through the user input module: user account information, waste disposal amount, waste transportation distance, disposal cost, and transportation cost;

the cost management and control unit sends the information to the processor for analysis to obtain disposal cost, transportation cost and delivery completion.

5. The information model management system applied to construction waste management according to claim 1, wherein,

the information model management system applied to the construction waste management further comprises:

and the asset management module is used for tracking the states of equipment and facilities involved in the construction waste treatment process according to the history record of the establishment work so as to pre-judge the applicable states of the equipment and facilities in advance.

6. The information model management system applied to construction waste management according to claim 1, wherein,

the information model management system applied to the construction waste management further comprises:

and the space management module is used for processing the space change request to reasonably arrange various application requirements, wherein the application requirements comprise traffic scheduling and storage space arrangement, and the space management module records the use, renting and renting-out conditions of the space so as to realize the overall process management of the space.

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