CN112907200B - Pouring order monitoring system and method - Google Patents

Abstract

The invention discloses a pouring order monitoring system and a method, comprising the following steps: the terminal inputs pouring application information according to the trigger signal, the image processing module acquires corresponding image information in the pouring application and sends the acquired image information to the monitoring center module; when the auditing is passed, the auditing module extracts information of a construction preparation stage, a construction implementation stage and a construction maintenance stage from the actual measurement real quantity data as auditing passing information, and sends the auditing passing information to the auditing module; when the examination passes, the examination module sends examination passing information to the terminal; when the terminal receives the examination passing information, the terminal acquires the secondary examination authority, and solves the problems that the information cannot be timely transmitted in place and cannot be timely fed back to each port. The invention has the advantages that: the message can be timely transmitted in place and timely fed back to each port, so that each flow can receive the information.

Description

Pouring order monitoring system and method

Technical Field

The invention relates to the technical field of information, in particular to a pouring order monitoring system and method.

Background

Along with the increase of construction rhythm and the increase of personnel of various departments of a construction unit, the management is not easy, so that the information notification is often not in place, and the information cannot be timely notified to each flow personnel; therefore, a pouring order monitoring system needs to be designed, and before concrete pouring, all project parts are guaranteed to report to a comprehensive engineering performance center according to the flow requirement of a collaborative office management information system, and after the project parts are checked and accepted step by step, the project parts can enter the next working procedure.

Disclosure of Invention

Therefore, a pouring order monitoring system is needed to be designed, and the aim is to solve the defects that in the prior art, messages cannot be timely transmitted in place and cannot be timely fed back to each port.

The invention is realized by the following technical scheme:

in a first aspect, a pouring order monitoring system is provided, which comprises an image processing module, a monitoring center module, an auditing module and an auditing module, wherein after an initiator initiates a pouring application through a terminal, the image processing module collects corresponding image information in the pouring application and sends the collected image information to the monitoring center module;

the monitoring center module analyzes the image information and extracts actual measurement data before steel bar engineering, installation embedding and concrete pouring from the image information; the monitoring center module also sends the actual measurement real quantity data to the auditing module;

the auditing module is used for sorting and auditing the actual measurement real quantity data; when the auditing is passed, the auditing module extracts information of a construction preparation stage, a construction implementation stage and a construction maintenance stage from the actual measurement real quantity data as auditing passing information, and sends the auditing passing information to the auditing module;

the auditing module acquires engineering budget cost data through the auditing passing information and inspects the engineering budget cost data; when the examination is passed, the examination module sends examination passing information to the terminal; when the terminal receives the examination passing information, acquiring a secondary examination authority;

when the terminal acquires a secondary auditing right, the terminal sends the received auditing passing information to the auditing module, the auditing module carries out secondary confirmation on the auditing passing information, and the auditing module sends the auditing passing information after the secondary confirmation to the auditing module;

the auditing module is used for sorting and auditing the information after the secondary confirmation of the auditing module, and when the auditing is passed, the auditing module is used for transmitting the information passing the auditing to the monitoring center module;

the monitoring center module performs secondary analysis on the information which is checked and passed by the checking module, takes analysis data after the secondary analysis as monitoring passing information, and sends the monitoring passing information to the image processing module;

and the image processing module performs secondary image processing on the monitored information to obtain image information after secondary image processing, and sends the image information after secondary image processing to a terminal, and the terminal performs archiving.

The prior art generally only has one circulation or makes a paper version application form, each department signs one by one according to the process, not only the time cost can be increased, but also accurate feedback can not be performed in time, if the department behind the process changes and confirms the signature, the department in front of the process can not know the final result, accurate monitoring can not be realized, each approver can not be fed back and informed in time, and the time cost is increased.

The invention increases the flow of acquiring the secondary auditing authority when the terminal receives the auditing passing information, not only is the secondary circulation, but also is the opposite flow, and the secondary confirmation is carried out from the terminal according to the flow sequence of the auditing module, the monitoring center module and the image processing module, so that the departments with the back flow can be ensured to change and confirm the signature, the departments with the front flow can know the final result, and more accurate and timely feedback is notified to each approver, thereby saving the time cost and facilitating the work of the approvers.

When the method is applied, the reporting time of the pouring order is generally eight points in the morning each day, and each node completes approval work within 1 hour after receiving the pouring order, so that the time cost is saved, and the progress of the whole project is accelerated; for example, if in the prior art, municipal engineering should be completed in the dry period, but since each node is not timely and cannot feed back to cause the towing of each node, the whole construction period is delayed to the waterlogging period, and huge economic loss of the whole engineering is caused, so that the invention can timely feed back information to each approver through two cycles and becomes important.

Further, the image processing module is used for collecting data before the reinforcement engineering, the installation and the embedding of concrete, checking the data before the reinforcement engineering, the installation and the embedding of concrete, uploading related photos, collecting the lists of operators on duty of each professional work, and obtaining pouring orders of first party and supervision signing lot;

the image processing module acquires corresponding image information in the pouring application and sends the acquired image information to the monitoring center module.

Further, the monitoring center module is used for analyzing data for monitoring the steel bar engineering, the installation pre-embedding, the actual measurement actual quantity before the concrete pouring and the preparation work before the concrete engineering pouring;

the monitoring center module analyzes the image information and extracts actual measurement data before steel bar engineering, installation embedding and concrete pouring from the image information.

Further, the auditing module is used for taking charge of various works of a construction preparation stage, a construction implementation stage and a construction maintenance stage;

and the auditing module is used for sorting and auditing the information after the secondary confirmation of the auditing module, and when the auditing is passed, the auditing module is used for transmitting the information passing the auditing to the monitoring center module.

Further, the examination module is used for examining and calculating project purchasing budget, project budget management and project management work;

further, in the process of initiating a pouring application by the terminal, each inspector has a step of carrying out rollback operation on pouring orders which do not meet requirements, and the initiator timely rectifies and re-uploads the pouring orders according to rollback comments;

and if the image processing module, the monitoring center module, the auditing module and the auditing module do not pass through the terminal in the pouring application initiating process, returning the terminal, rectifying and uploading again according to the rollback opinion.

Further, the image processing module comprises a paying-off analysis and a panel identification, wherein a construction area is obtained through the paying-off analysis and the panel identification, and construction accuracy is obtained through a comparison analysis of the construction area and a known area;

if the construction accuracy reaches more than 80%, reporting can be carried out;

if the construction accuracy reaches below 80%, not reporting;

the inspection conditions of the measurement paying-off and the template engineering require that the plate template laying (the wall column sealing is required to be carried out when the wall is firstly arranged and then the plate is arranged) can be declared above 80%.

Further, panel identification comprises uploading a measurement paying-off inspection picture, a template engineering inspection picture, a reinforcement engineering inspection picture, an installation pre-buried inspection picture and a concrete engineering pouring pre-inspection picture;

the required project department checks the steel bar engineering, the actual measurement actual quantity before installation and concrete pouring, and the preparation work before concrete engineering pouring, uploads relevant photos, collects the on-duty personnel lists of each professional work class and obtains pouring orders of the first party and the supervision signing lot. All construction contents are completed by more than 90%, and the declaration can be carried out after no obvious hidden danger exists in the aspects of safety protection and quality control.

Further, the user terminal is any one of a personal computer, a mobile device and a tablet computer, and the user terminal includes: the system management module is used for providing a visual interface for a user, acquiring user identity information and providing corresponding engineering information management authority according to the user identity information;

the data analysis module is used for converting the monitoring result into corresponding form data and displaying the form data according to a preset display mode.

In a second aspect, a method for monitoring a pouring order is provided, including the following steps: the terminal inputs pouring application information according to the trigger signal, and the image processing module acquires corresponding image information in the pouring application and sends the image information to the monitoring center module; the monitoring center module analyzes the image information and extracts actual measurement actual quantity data before the reinforcement engineering, the installation embedding and the concrete pouring from the image information; and also transmitting the measured real quantity data to the auditing module;

the auditing module is used for sorting and auditing the actual measurement real quantity data; when the auditing is passed, the auditing module extracts information of a construction preparation stage, a construction implementation stage and a construction maintenance stage from the actual measurement real quantity data as auditing passing information, and sends the auditing passing information to the auditing module;

the auditing module acquires engineering budget cost data through the auditing passing information and inspects the engineering budget cost data; when the examination is passed, the examination module sends examination passing information to the terminal; when the terminal receives the examination passing information, acquiring a secondary examination authority; when a terminal acquires a secondary auditing right, the terminal sends the received auditing passing information to the auditing module, and the auditing module secondarily confirms the auditing passing information and sends the information to the auditing module; the auditing module is used for sorting and auditing the information after the secondary confirmation of the auditing module, and when the auditing is passed, the auditing module is used for transmitting the information passing the auditing to the monitoring center module; the monitoring center module carries out secondary analysis on the information which is audited by the auditing module and sends analysis data after the secondary analysis to the image processing module; and the image processing module performs secondary image processing on the monitored information to obtain image information after secondary image processing, and sends the image information to a terminal, and the terminal performs archiving.

In a third aspect, a computer terminal is provided, including a memory, a processor, and a computer program stored in the memory and executable on the processor, where the processor implements the pouring order monitoring method when executing the program.

In a fourth aspect, a computer readable medium is provided, on which a computer program is stored, the computer program being executable by a processor to implement the method of casting order monitoring.

Compared with the prior art, the invention has the following advantages and beneficial effects:

1. the pouring order monitoring system can timely transmit the information in place and timely feed back the information to each port, and ensures that each flow can receive the information.

2. According to the pouring order monitoring system, before concrete pouring, all project parts are guaranteed to report to a comprehensive engineering performance center according to the flow requirements of a collaborative office management information system, and after the project parts are checked and accepted step by step, the project parts can enter the next working procedure.

Drawings

The accompanying drawings, which are included to provide a further understanding of embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiments of the invention. In the drawings:

FIG. 1 is a schematic diagram of an information processing audit flow of the present invention.

Fig. 2 is a schematic diagram of an information processing feedback flow of the present invention.

Detailed Description

For the purpose of making apparent the objects, technical solutions and advantages of the present invention, the present invention will be further described in detail with reference to the following examples and the accompanying drawings, wherein the exemplary embodiments of the present invention and the descriptions thereof are for illustrating the present invention only and are not to be construed as limiting the present invention.

Example 1

As shown in fig. 1-2, the present invention is a casting order monitoring system, comprising: the system comprises an image processing module, a monitoring center module, an auditing module and an auditing module,

the terminal inputs pouring application information according to the trigger signal, the image processing module acquires corresponding image information in the pouring application and sends the acquired image information to the monitoring center module;

the monitoring center module is used for analyzing the image information and extracting actual measurement actual quantity data before the reinforcement engineering, the installation embedding and the concrete pouring from the image information; the actual measurement real quantity data is also sent to an auditing module;

the auditing module is used for sorting and auditing the actual measurement real quantity data; when the auditing is passed, the auditing module extracts information of a construction preparation stage, a construction implementation stage and a construction maintenance stage from the actual measurement real quantity data as auditing passing information, and sends the auditing passing information to the auditing module;

the inspection module acquires engineering budget cost data through inspection passing information and inspects the engineering budget cost data; when the examination passes, the examination module sends examination passing information to the terminal; when the terminal receives the examination passing information, acquiring a secondary examination authority;

when the terminal acquires the second audit right, the terminal sends the received audit passing information to an audit module, the audit module carries out second confirmation on the audit passing information, and the audit module sends the audit passing information after the second confirmation to the audit module;

the auditing module is used for sorting and auditing the information after the secondary confirmation of the auditing module, and when the auditing is passed, the auditing module is used for transmitting the information passing the auditing to the monitoring center module;

the monitoring center module performs secondary analysis on the information which is checked and passed by the checking module, takes the analysis data after the secondary analysis as monitoring passing information, and sends the monitoring passing information to the image processing module;

the image processing module performs secondary image processing on the monitored information to obtain image information after secondary image processing, and sends the image information after secondary image processing to the terminal for archiving.

Pouring the declaration time is 8 per morning: 00-night 22:00, each approver should complete approval work within 1 hour after receiving the pouring order.

Preferably, the image processing module is used for collecting data before the reinforcement engineering, the installation and the pre-embedding and the concrete pouring, checking the data before the reinforcement engineering, the installation and the pre-embedding and the concrete pouring, uploading related photos, collecting the lists of operators on duty of each professional work, and obtaining pouring orders of first party and supervision signing lot;

the image processing module acquires corresponding image information in the pouring application and sends the acquired image information to the monitoring center module.

Preferably, the monitoring center module is used for analyzing data for monitoring the actual measurement actual quantity before the reinforcement engineering, the installation and the embedding of the concrete and the preparation work before the concrete engineering pouring;

the monitoring center module analyzes the image information and extracts actual measurement actual quantity data before the reinforcement engineering, the installation embedding and the concrete pouring from the image information.

Preferably, the auditing module is used for taking charge of various works of a construction preparation stage, a construction implementation stage and a construction maintenance stage;

and the auditing module is used for sorting and auditing the information after the secondary confirmation of the auditing module, and when the auditing is passed, the auditing module is used for transmitting the information passing the auditing to the monitoring center module.

Preferably, the examination module is used for examining and calculating project purchasing budget, project budget management and project management work;

preferably, in the process of initiating a pouring application by a terminal, each inspector has the step of carrying out rollback operation on pouring orders which do not meet the requirements, and the initiator timely rectifies and re-uploads the pouring orders according to rollback comments;

in the process of the terminal initiating pouring application, if the image processing module, the monitoring center module, the auditing module and the auditing module do not pass, the terminal is returned, and the terminal is rectified and uploaded again according to the rollback opinion.

Preferably, the image processing module comprises a paying-off analysis and a panel identification, wherein a construction area is obtained through paying-off analysis and panel identification, and construction accuracy is obtained through comparing and analyzing the construction area with a known area;

if the construction accuracy reaches more than 80%, reporting can be carried out;

if the construction accuracy reaches below 80%, not reporting;

the inspection conditions of the measurement paying-off and the template engineering require that the plate template laying (wall column sealing is required for the first wall and then the second wall) can be declared above 80%.

Preferably, the panel identification comprises uploading a measuring paying-off inspection picture, a template engineering inspection picture, a reinforcing steel bar engineering inspection picture, an installation pre-buried inspection picture and a concrete engineering pouring pre-inspection picture;

the project department is required to check the actual measurement actual quantity before the reinforcement engineering, the installation embedment and the concrete pouring, and the preparation work before the concrete engineering pouring, upload relevant photos, collect the on-duty personnel lists of each professional work class and obtain the pouring orders of the first party and the supervision signing lot. All construction contents are completed by more than 90%, and the declaration can be carried out after no obvious hidden danger exists in the aspects of safety protection and quality control.

Preferably, the user terminal is any one of a personal computer, a mobile device and a tablet computer, and the user terminal includes: the system management module is used for providing a visual interface for a user, acquiring user identity information and providing corresponding engineering information management authority according to the user identity information;

the data analysis module is used for converting the monitoring result into corresponding form data and displaying the form data according to a preset display mode.

Example 2

A pouring order monitoring method comprises the following steps: the terminal inputs pouring application information according to the trigger signal, and the image processing module acquires corresponding image information in the pouring application and sends the image information to the monitoring center module;

the monitoring center module analyzes the image information and extracts actual measurement actual quantity data before the reinforcement engineering, the installation embedding and the concrete pouring from the image information; and also transmitting the measured real quantity data to the auditing module;

the auditing module is used for sorting and auditing the actual measurement real quantity data; when the auditing is passed, the auditing module extracts information of a construction preparation stage, a construction implementation stage and a construction maintenance stage from the actual measurement real quantity data as auditing passing information, and sends the auditing passing information to the auditing module;

the auditing module acquires engineering budget cost data through the auditing passing information and inspects the engineering budget cost data; when the examination is passed, the examination module sends examination passing information to the terminal; when the terminal receives the examination passing information, acquiring a secondary examination authority;

when a terminal acquires a secondary auditing right, the terminal sends the received auditing passing information to the auditing module, and the auditing module secondarily confirms the auditing passing information and sends the information to the auditing module;

the auditing module is used for sorting and auditing the information after the secondary confirmation of the auditing module, and when the auditing is passed, the auditing module is used for transmitting the information passing the auditing to the monitoring center module;

the monitoring center module carries out secondary analysis on the information which is audited by the auditing module and sends analysis data after the secondary analysis to the image processing module;

and the image processing module performs secondary image processing on the monitored information to obtain image information after secondary image processing, and sends the image information to a terminal, and the terminal performs archiving.

Example 3

A computer terminal comprising a memory, a processor and a computer program stored in the memory and operable on the processor, the processor implementing a casting order monitoring method as in the second aspect when executing the program; a memory comprising a computer readable program executable by a processor, the program being executable when run in the processor.

Example 4

A computer readable medium having stored thereon a computer program for execution by a processor to implement a casting order monitoring method as in the second aspect.

The foregoing description of the embodiments has been provided for the purpose of illustrating the general principles of the invention, and is not meant to limit the scope of the invention, but to limit the invention to the particular embodiments, and any modifications, equivalents, improvements, etc. that fall within the spirit and principles of the invention are intended to be included within the scope of the invention.

Claims (8)

1. A casting order monitoring system, the monitoring system comprising: the system comprises an image processing module, a monitoring center module, an auditing module and an auditing module,

the terminal inputs pouring application information according to the trigger signal, the image processing module acquires corresponding image information in the pouring application and sends the acquired image information to the monitoring center module;

the monitoring center module is used for analyzing the image information and extracting actual measurement data before steel bar engineering, installation pre-embedding and concrete pouring from the image information; and also transmitting the measured real quantity data to the auditing module;

the auditing module is used for sorting and auditing the actual measurement real quantity data; when the auditing is passed, the auditing module extracts information of a construction preparation stage, a construction implementation stage and a construction maintenance stage from the actual measurement real quantity data as auditing passing information, and sends the auditing passing information to the auditing module;

the examination module acquires engineering budget cost data through the examination passing information and examines the engineering budget cost data; when the examination is passed, the examination module sends examination passing information to the terminal; when the terminal receives the examination passing information, acquiring a secondary examination authority;

when the terminal acquires a secondary auditing right, the terminal sends the received auditing passing information to the auditing module, the auditing module carries out secondary confirmation on the auditing passing information, and the auditing module sends the auditing passing information after the secondary confirmation to the auditing module;

the auditing module is used for sorting and auditing the information after the secondary confirmation of the auditing module, and when the auditing is passed, the auditing module is used for transmitting the information passing the auditing to the monitoring center module;

the monitoring center module performs secondary analysis on the information which is checked and passed by the checking module, takes analysis data after the secondary analysis as monitoring passing information, and sends the monitoring passing information to the image processing module;

and the image processing module performs secondary image processing on the monitored information to obtain image information after secondary image processing, and sends the image information after secondary image processing to a terminal, and the terminal performs archiving.

2. The system according to claim 1, wherein, in the process of the terminal initiating the pouring application, if any one of the image processing module, the monitoring center module, the auditing module and the auditing module fails, the terminal is returned, and the system is modified and re-uploaded according to the back opinion.

3. The casting order monitoring system according to claim 1, wherein the image processing module comprises a pay-off analysis and a panel identification, wherein a construction area is obtained through the pay-off analysis and the panel identification, and construction accuracy is obtained through a comparison analysis between the construction area and a known area;

if the construction accuracy reaches more than 80%, reporting can be carried out; if the construction accuracy reaches below 80%, the declaration is not carried out.

4. A casting order monitoring system according to claim 3, wherein the panel identification comprises uploading survey pay-off inspection pictures, template engineering inspection pictures, reinforcement engineering inspection pictures, installation pre-buried inspection pictures and pre-casting concrete engineering inspection pictures.

5. The casting order monitoring system according to claim 1, wherein the terminal is any one of a personal computer, a mobile device, and a tablet computer, and the terminal comprises: the system management module is used for providing a visual interface for a user, acquiring user identity information and providing corresponding engineering information management authority according to the user identity information;

the data analysis module is used for converting the monitoring result into corresponding form data and displaying the form data according to a preset display mode.

6. The casting order monitoring method is characterized by comprising the following steps of:

the terminal inputs pouring application information according to the trigger signal, acquires corresponding image information in the pouring application and sends the image information to the monitoring center module;

analyzing the image information and extracting actual measurement real quantity data from the image information; and also transmitting the measured real quantity data to an auditing module;

sorting and auditing the actual measurement real quantity data; when the verification passes, extracting the information of the arrangement and verification, and sending the information to a verification module;

acquiring engineering budget cost data through the information, and examining the engineering budget cost data; when the examination passes, sending examination passing information to the terminal; when the terminal receives the examination passing information, acquiring a secondary examination authority;

when the terminal acquires the secondary auditing right, the terminal sends the information to the auditing module for secondary confirmation;

the information after the secondary confirmation of the examination module is arranged and examined, and when the examination is passed, the information passing the examination is sent to the monitoring center module;

performing secondary analysis on the information which is checked by the checking module, and sending analysis data after the secondary analysis to an image processing module;

and carrying out secondary image processing on the monitored information to obtain image information after secondary image processing, and sending the image information to a terminal, wherein the terminal is used for archiving.

7. A computer terminal comprising a memory, a processor and a computer program stored in the memory and executable on the processor, wherein the processor implements a casting order monitoring method as claimed in claim 6 when executing the program.

8. A computer readable medium having stored thereon a computer program, the computer program being executable by a processor to implement a casting order monitoring method as claimed in claim 6.