CN112446684A

CN112446684A - System and method for managing shield segment production, acceptance and use by utilizing two-dimensional code

Info

Publication number: CN112446684A
Application number: CN202011385749.4A
Authority: CN
Inventors: 唐耀斌; 黄惠群; 李晓坤; 李世佳; 滕君祥; 黄威然; 罗淑仪; 岳川; 邝祖萸
Original assignee: GUANGZHOU MASS TRANSIT ENGINEERING CONSULTANT CO LTD
Current assignee: GUANGZHOU MASS TRANSIT ENGINEERING CONSULTANT CO LTD
Priority date: 2020-12-01
Filing date: 2020-12-01
Publication date: 2021-03-05

Abstract

The invention discloses a system and a method for managing shield segment production, acceptance and use by using a two-dimensional code. The two-dimension code information generating and storing system is used for inputting and storing segment information and shield machine information and generating segment two-dimension codes and shield machine two-dimension codes according to the segment information and the shield machine information, and the segment scanning code management system is used for confirming the information and the quality of the segment through the scanning codes in all stages of demolding and warehousing, delivery acceptance, arrival acceptance and assembly acceptance. By utilizing the invention, the paper inspection data does not need to be recorded manually, and the production, acceptance and use data of the segment can be traced conveniently; conditions are provided for the transmission of data with other systems; conditions are provided for providing statistics and query functions; the on-site construction management personnel can conveniently inquire the operation flow of the duct piece through the date record, so that the more accurate and reasonable duct piece quantity requirement can be obtained, the phenomenon of excessive payment of engineering can be reduced, and the capital cost can be saved.

Description

System and method for managing shield segment production, acceptance and use by utilizing two-dimensional code

Technical Field

The invention relates to the technical field of shield segment production, in particular to a system and a method for managing shield segment production, acceptance and use by using a two-dimensional code.

Background

In recent years, with implementation of strategic planning construction of national novel urbanization, sponge cities, underground comprehensive pipe galleries, rail transit, electric power tunnels and the like, the technical development in the field of urban tunnels and underground engineering in China brings unprecedented opportunities. The shield method is widely applied to tunnel and underground engineering construction due to the advantages of high mechanical automation degree, high construction speed, no influence from road traffic and weather conditions, no need of large-area removal during construction, no influence on normal life of residents and the like. The shield segment is a main assembly component for shield construction, is the innermost barrier of the tunnel and plays a role in resisting soil layer pressure, underground water pressure and some special loads. The shield segment is a permanent lining structure of a shield tunnel, and the quality of the shield segment is directly related to the overall quality and safety of the tunnel, so that the waterproof performance and the durability of the tunnel are influenced. The production and transportation efficiency of the duct piece, the production quality and the traceability of the duct piece greatly influence the progress and the quality of the shield construction. At present, the file management and acceptance processes of the duct piece only adopt a papery management means, and each acceptance link is rough. Therefore, a scheme for conveniently managing segment information is very necessary.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide a system and a method for managing shield segment production, acceptance and use by using a two-dimensional code.

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

the system for managing shield segment production, acceptance and use by using the two-dimension code comprises a two-dimension code information generating and storing system and a segment scanning code management system;

the two-dimension code information generating and storing system is used for inputting and storing the segment information and generating the segment two-dimension code according to the segment information; the segment information comprises fields including segment model, reinforcement model, type, strength grade, manufacturer, operation team, production date and segment code; the type, the reinforcement type, the type and the strength grade of the duct piece are classified into self-defined settings, and all types of duct pieces can be added together to form a complete ring; filling in a manufacturer and an operation team according to actual conditions; the segment code is the only identification of each segment; the two-dimensional code information generating and storing system is also used for inputting and storing shield machine information and generating a shield machine two-dimensional code according to the shield machine information, wherein the shield machine information comprises a shield machine construction line and an interval and a shield machine left line shield code or a shield machine right line shield code; the left line shield code or the right line shield code is the unique identifier of each tunnel; the two-dimensional code of the segment and the two-dimensional code of the shield machine generated by the two-dimensional code information generating and storing system are fixed on the corresponding segment and the shield machine;

the segment code scanning management system is associated with the two-dimension code information generation and storage system and comprises a segment code scanning module; the segment code scanning module comprises a demolding and warehousing submodule, a delivery acceptance submodule, an arrival acceptance submodule and an assembling acceptance submodule; the demolding and warehousing submodule is used for acquiring the information of the segment by scanning the two-dimensional code on the segment during demolding and warehousing, confirming whether the segment is qualified, which line and mark section the segment needs to be used on, and associating the confirmation information with the segment; the delivery acceptance sub-module is used for acquiring the information of the duct piece by scanning the two-dimensional code on the duct piece during delivery acceptance, confirming whether the duct piece is qualified, which line and mark section the duct piece needs to use, and associating the confirmation information with the duct piece; the on-site acceptance sub-module is used for acquiring the information of the duct piece by scanning the two-dimensional code of the duct piece when the duct piece arrives at a site to be put in storage, confirming whether the duct piece is qualified, which line and mark section the duct piece needs to use, and associating the confirmed information with the duct piece; the assembling and acceptance sub-module is used for confirming a line and interval information where the shield tunneling machine is located through scanning the two-dimensional code on the shield tunneling machine before assembling the duct piece, then obtaining the information of the duct piece and the confirmation information before through scanning the two-dimensional code on the duct piece, judging whether the information corresponds to the information of the shield tunneling machine, and finally determining whether the duct piece is qualified again.

Furthermore, the duct piece code scanning management system also comprises a duct piece live statistics and query module, wherein the duct piece live statistics and query module is used for counting and querying duct pieces which are subjected to code scanning and warehousing in each stage of demolding warehousing, delivery inspection and acceptance, arrival inspection and acceptance and splicing acceptance; the statistical data is included in each line or interval, the number of rings which can be integrated into a whole ring in the segment put in storage in each stage can be integrated into a whole ring, and when the segment model and the reinforcement type in the segment information are consistent and all types of segments exist simultaneously, the whole ring can be integrated into a whole ring; the segment live statistics and query module is also used for querying information of segments which are put in a storage by historical code scanning.

Further, the segment scanning code management system further comprises a segment information maintenance module, and the segment information maintenance module is used for inquiring and deleting information of corresponding segments when segment information input errors occur.

Further, the yard management system is swept to section of jurisdiction is still including the section of jurisdiction module of placing an order, and the section of jurisdiction module of placing an order is used for supplying the managers to type the section of jurisdiction demand, including type, quantity, the arrival time that needs the section of jurisdiction, and the section of jurisdiction demand will arrive the mill, and the mill is produced according to the section of jurisdiction demand.

The invention also provides a method for utilizing the system, which comprises the following specific processes:

when each segment is produced in a factory, the segment model, the reinforcement model, the type, the strength grade, the manufacturer, the operation team and the production date of the segment are recorded in the two-dimensional code information generating and storing system, the two-dimensional code information generating and storing system automatically generates a segment code according to the recorded segment information, and the generated segment two-dimensional code is fixed on the segment; meanwhile, before each shield machine works, a manager inputs shield machine operation lines, sections, left line shield codes or right line shield codes in a two-dimensional code information generating and storing system, the two-dimensional code information generating and storing system automatically generates shield machine two-dimensional codes according to the input shield machine information, and the generated shield machine two-dimensional codes are fixed on the shield machine;

when the duct piece is demoulded and warehoused, a manager opens the duct piece scanning module in the duct piece scanning management system, opens the scanning function under the demould warehousing submodule, scans the two-dimensional code of the duct piece to obtain the information of the duct piece, confirms whether the duct piece is qualified and which line and mark section the duct piece needs to use in a confirmation interface, and automatically associates the confirmation information with the corresponding duct piece, so that the demould acceptance, check and warehousing are completed;

when the duct piece is delivered from a factory for inspection, a manager opens the duct piece code scanning module in the duct piece code scanning management system, opens the scanning function in the delivery acceptance submodule, scans the two-dimensional code of the duct piece to obtain the information of the duct piece, confirms whether the duct piece is qualified and which line and mark section the duct piece needs to use in the confirmation interface, and automatically associates the confirmation information with the corresponding duct piece, so that delivery inspection and warehousing are completed;

when a duct piece arrives at the site to be inspected, a manager opens a duct piece code scanning module in a duct piece code scanning management system, opens a scanning function in an arrival inspection and acceptance submodule, scans a two-dimensional code of the duct piece to obtain information of the duct piece, confirms whether the duct piece is qualified and which line and mark section the duct piece needs to use in a confirmation interface, and automatically associates the confirmation information with the corresponding duct piece, so that arrival inspection, acceptance and warehousing are completed;

before putting into the section of jurisdiction and assembling the process, managers open the section of jurisdiction in section of jurisdiction sweep yard management system and sweep yard module, open the scanning function in assembling the acceptance submodule piece, scan the two-dimensional code on the shield structure machine earlier and acquire the circuit and the interval information that the shield structure machine is located, the rethread scans the information that the two-dimensional code on the section of jurisdiction acquireed this section of jurisdiction and confirmation information before, judge whether corresponding with the information of shield structure machine, confirm again on confirming the interface at last whether qualified this section of jurisdiction to accomplish and assemble the acceptance warehouse entry.

Further, when any stage of demolding, delivery, acceptance and warehousing, arrival acceptance and warehousing and assembly, acceptance and warehousing is completed, the segment live statistics query module in the segment scanning code management system automatically performs statistics on segment information recorded by scanning, and the statistical data comprises: in each line or section, the number of rings of a whole ring can be formed in the segments put in storage in each stage, and when the segment models and the reinforcement types in the segment information are consistent and all the types of segments exist simultaneously, the whole ring can be formed; the number of segments that fail to complete a full ring and the number of rings that can complete a full ring are shown as numbers in different colors.

Furthermore, when a manager needs to inquire segment information stored in a historical code scanning warehouse, segment codes of segments are input in a segment live statistics and query module through a condition query method to obtain information of corresponding segments.

Furthermore, in each stage of demolding, delivery, arrival, assembly, inspection and storage, if the segment information is wrongly input, a manager inquires and deletes the information of the corresponding segment by inputting the segment code in a segment information maintenance module of the segment code scanning management system.

Further, when producing the section of jurisdiction demand, the section of jurisdiction in the code management system is swept through the section of jurisdiction to the managers and is put the order module and input the section of jurisdiction demand, including type, quantity, the arrival time that needs the section of jurisdiction, the section of jurisdiction demand will arrive the mill, and the mill produces according to the section of jurisdiction demand.

The invention has the beneficial effects that:

1. need not artifical record paper inspection data, the production of the section of jurisdiction of being convenient for, the retrospection of inspection accepting, use data.

2. The establishment standard of the segment basic information and the establishment method of the two-dimensional code are determined, conditions are provided for transmission of data and other systems, and an information island is broken.

3. Through the two-dimensional code scanning and inputting basic information, filling quality information and recording acceptance information in the four-step acceptance checking step, the information of the duct piece is perfected, and conditions are provided for providing statistics and query functions. The on-site construction management personnel can conveniently inquire the operation flow of the duct piece through the date record, so that the more accurate and reasonable duct piece quantity requirement can be obtained, the phenomenon of excessive payment of engineering can be reduced, and the capital cost can be saved.

3. Through the system ordering, a way for ordering the duct piece is established, the misordering of all parties due to misunderstanding or memory error is reduced, and evidence is provided for disputes caused by the subsequent ordering of the duct piece.

Drawings

Fig. 1 is a schematic diagram of a system configuration in embodiment 1 of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings, and it should be noted that the present embodiment is based on the technical solution, and the detailed implementation and the specific operation process are provided, but the protection scope of the present invention is not limited to the present embodiment.

Example 1

The embodiment provides a system for managing shield segment production, acceptance and use by using a two-dimensional code, which comprises a two-dimensional code information generation and storage system and a segment scanning code management system, as shown in fig. 1;

the two-dimension code information generating and storing system is used for inputting and storing the segment information and generating the segment two-dimension code according to the segment information; the segment information includes fields including segment model, reinforcement model, type, strength grade, manufacturer, job team, date of manufacture and segment code. The model number, the reinforcement model number, the type, the strength grade and the like of the duct piece can be customized according to actual requirements, and can be selected by an input person in an option mode. In this embodiment, the options set in the segment model field include general type i (with a catenary), general type i (without a catenary), general type ii (with a catenary), and general type ii (without a catenary); the selection items set in the reinforcement model field comprise type II, type III, type IV and type V; the types of the segments are divided into 7 options according to the types of the segments required to be used in a whole ring, including A1, A2, A3, A4, L1, L2 and F. Filling in a manufacturer and an operation team according to actual conditions; filling the production date in a set format, such as 2019-11-18. The segment code is the only identification of each segment, and the coding rule is as follows: the code consists of 6 fields, namely a line code (2 bits), a section code (2 bits), a left/right code (2 bits, default 00), a manufacturer code (2 bits), a production number (number of bits, manufacturer-segment unique code), a type (one of seven, namely A1, A2, A3, A4, L1, L2 and F), such as '18020002 + 13855F'.

The two-dimensional code information generating and storing system is used for inputting and storing shield machine information and generating a shield machine two-dimensional code according to the shield machine information, wherein the shield machine information comprises lines, intervals, left line shield codes or right line shield codes; the left line shield code or the right line shield code is the unique identifier of each tunnel, and the coding rule is as follows: consists of 3 fields, namely a line code (2 bits), an interval code (2 bits), a left/right code (2 bits, a left line is 01, and a right line is 02) such as 180201;

and the two-dimension code of the segment generated by the two-dimension code information generating and storing system and the two-dimension code of the shield machine are fixed on the corresponding segment or shield.

The lines and sections refer to names of construction lines and construction sections.

The segment code scanning management system is associated with the two-dimension code information generation and storage system and comprises a segment code scanning module, a segment live statistics and query module, a segment information maintenance module and a segment ordering module;

the segment code scanning module comprises a demolding and warehousing submodule, a delivery acceptance submodule, an arrival acceptance submodule and an assembling acceptance submodule; the demolding and warehousing submodule is used for acquiring the information of the segment by scanning the two-dimensional code on the segment during demolding and warehousing, confirming whether the segment is qualified, which line and mark section the segment needs to be used on, and associating the confirmation information with the segment; the delivery acceptance sub-module is used for acquiring the information of the duct piece by scanning the two-dimensional code on the duct piece during delivery acceptance, confirming whether the duct piece is qualified, which line and mark section the duct piece needs to use, and associating the confirmation information with the duct piece; the on-site acceptance sub-module is used for acquiring the information of the duct piece by scanning the two-dimensional code of the duct piece when the duct piece arrives at a site to be put in storage, confirming whether the duct piece is qualified, which line and mark section the duct piece needs to use, and associating the confirmed information with the duct piece; the assembling and acceptance sub-module is used for confirming a line and interval information where the shield tunneling machine is located through scanning the two-dimensional code on the shield tunneling machine before the segment is assembled, then obtaining information of the segment and confirmation information before the segment through scanning the two-dimensional code on the segment, judging whether the segment corresponds to the information of the shield tunneling machine or not, and determining whether the segment is qualified or not again.

The duct piece live statistics and query module is used for counting and querying duct pieces which are subjected to code scanning and warehousing in each stage of demolding warehousing, delivery inspection and acceptance, arrival inspection and acceptance and splicing inspection and acceptance; the statistical data includes: in each line or section, the number of rings of a whole ring can be formed in the segment put in storage in each stage, and when the segment type and the reinforcement type in the segment information are consistent and seven segments of A1, A2, A3, A4, L1, L2 and F exist in the type, the whole ring can be formed; the number of each type of tube sheet which cannot be put together into a whole ring and the number of rings which can be put together into a whole ring are indicated by numbers of different colors; the segment live statistics query module is also used for querying the information of the segments which are put in the historical code scanning warehouse in a mode of condition query and the like.

The segment information maintenance module is used for inquiring and deleting the information of the corresponding segment when segment information input errors occur;

the segment ordering module is used for a manager to input segment requirements, and comprises types, quantity and arrival time of required segments, the segment requirements reach a factory, and the factory produces the segment requirements.

The duct piece code scanning management system can be carried on a mobile terminal device with a code scanning function and also can be carried on a computer provided with an external code scanning gun.

Example 2

The present embodiment provides a method for utilizing the system as described in embodiment 1, which includes the following specific processes:

In the method, when any stage of demolding, delivery, acceptance, arrival and acceptance and warehousing and assembly, the segment live statistics and query module in the segment scanning code management system automatically performs statistics on segment information recorded by scanning, and the statistical data comprises the following data: in each line or section, the number of rings of a whole ring can be obtained in the segment put in storage in each stage, and when the segment type and the reinforcement type in the segment information are consistent and seven segments of types A1, A2, A3, A4, L1, L2 and F exist, the whole ring can be obtained; the number of types of tube sheets that fail to make a full ring and the number of rings that can make a full ring are shown as numbers in different colors.

Various corresponding changes and modifications can be made by those skilled in the art based on the above technical solutions and concepts, and all such changes and modifications should be included in the protection scope of the present invention.

Claims

1. The system for managing shield segment production, acceptance and use by using the two-dimension code is characterized by comprising a two-dimension code information generation and storage system and a segment scanning code management system;

2. The system of claim 1, wherein the segment code scanning management system further comprises a segment live statistics and query module, wherein the segment live statistics and query module is used for counting and querying segments which are subjected to code scanning and warehousing in each stage of demolding warehousing, delivery inspection and acceptance, arrival inspection and acceptance and assembly inspection; the statistical data is included in each line or interval, the number of rings which can be integrated into a whole ring in the segment put in storage in each stage can be integrated into a whole ring, and when the segment model and the reinforcement type in the segment information are consistent and all types of segments exist simultaneously, the whole ring can be integrated into a whole ring; the segment live statistics and query module is also used for querying information of segments which are put in a storage by historical code scanning.

3. The system of claim 1, wherein the segment barcode scanning management system further comprises a segment information maintenance module, and the segment information maintenance module is configured to query and delete information of a corresponding segment when a segment information entry error occurs.

4. The system of claim 1, wherein the segment yard sweeping management system further comprises a segment ordering module, wherein the segment ordering module is used for a manager to input segment requirements, including types, quantities and arrival times of required segments, and the segment requirements reach a factory, and the factory produces the segment requirements.

5. A method for using the system according to any one of claims 1-4, characterized in that the specific process is:

6. The method of claim 5, wherein when any stage of demolding, delivery, arrival and assembly is completed, the segment-scene-statistics query module in the segment-scan-code management system automatically performs statistics on the segment information recorded by scanning, and the statistical data comprises: in each line or section, the number of rings of a whole ring can be formed in the segments put in storage in each stage, and when the segment models and the reinforcement types in the segment information are consistent and all the types of segments exist simultaneously, the whole ring can be formed; the number of segments that fail to complete a full ring and the number of rings that can complete a full ring are shown as numbers in different colors.

7. The method of claim 6, wherein when a manager needs to query segment information in a historical code scanning warehouse, segment codes of segments are input in a segment live statistics query module by a condition query method to obtain information of corresponding segments.

8. The method according to claim 5, wherein in each stage of demolding warehousing, ex-factory inspection warehousing, in-field inspection warehousing and assembly inspection warehousing, if a segment information entry error occurs, a manager queries and deletes information of a corresponding segment by inputting a segment code in a segment information maintenance module of the segment code scanning management system.

9. The method of claim 5, wherein when a segment demand is generated, a manager enters the segment demand through a segment ordering module in the segment yard management system, including the type, number, arrival time of the required segments, and the segment demand will arrive at a factory, which produces the segment demand.