CN113095797A - System for recording and tracing construction process in ceramic tile embedding project - Google Patents

Abstract

The invention provides a system for recording and tracing a construction process in tile inlaying engineering, which is characterized in that: the system comprises a pre-buried end, a mobile end and a server end; the embedded end is a storage chip which is embedded in a specific position of a ceramic tile embedding project site; the mobile terminal is a mobile read-write device capable of reading and writing information; the server is a server which can receive and process the information used for recording the construction process from the mobile terminal. The system can effectively identify and display constructor information, construction process materials and construction method information of the tile embedding project, review and summarize the problem areas of the tile embedding project, provide auxiliary information for finding the reasons of the problems, and promote constructors to improve the technical level by reviewing and analyzing the projects. The rework rate of the project is reduced, and the material waste is reduced.

Description

System for recording and tracing construction process in ceramic tile embedding project

Technical Field

The invention relates to a quality control method in the field of building decoration, in particular to a system for recording and tracing a construction process in a tile embedding project, and more particularly relates to a scheme for recording and tracing the construction process in the tile embedding project, namely recording and classifying construction process information and tracing in a later period.

Background

Compared with other wall and floor decoration materials, the ceramic tile has the advantages of no ethical ratio, so that the ceramic tile is extremely wide in application, sanitary, easy to clean and care, free of environmental pollution and beneficial to creating a pleasant indoor environment.

With the expansion of tile applications and the development of tile manufacturing technology, the quality of tiles has improved dramatically. For example, very dense tiles are being used in increasing amounts in order to meet the requirements of wear resistance, frost resistance, etc. of the tiles.

The problems of hollowing, arching, falling and the like caused by the randomness of operation of constructors, the randomness of selection of construction processes and bonding materials and the non-standardization in the construction process become important problems of the tile inlaying engineering, and according to public data statistics, the reworking of the tile inlaying engineering per year causes that materials such as cement, sand and the like consume more than 8000 million tons.

The tile inlaying engineering has strong dependence on constructors, construction operation is distributed scattered, effective supervision is carried out, the constructors do not have a review and tracing mechanism for the engineering constructed by the constructors, whether the content in experience is correct or not cannot be known, and the method can be continued all the time.

Disclosure of Invention

The invention aims to overcome the defects, and provides a method for effectively recording the construction process and the effect of a constructor, classifying and summarizing the construction process and the effect to correct the dependence of the constructor on experience, so that the constructor can reliably review and trace the reasons of the problems of construction engineering and effect, and the skill is actively improved.

The invention provides a system for recording and tracing a construction process in tile inlaying engineering, which is characterized in that:

the system comprises a pre-buried end, a mobile end and a server end;

the embedded end is a storage chip which is embedded in a specific position of a ceramic tile embedding project site;

the mobile terminal is a mobile read-write device which can read and write information to the embedded terminal;

the server is a server which can receive and process the information used for recording the construction process from the mobile terminal.

Further, the system for recording and tracing the construction process in the tile inlaying engineering provided by the invention is characterized in that:

the embedded end is a non-contact storage chip which transmits information through radio frequency.

Further, the system for recording and tracing the construction process in the tile inlaying engineering provided by the invention is characterized in that:

the embedded end is embedded in a ceramic tile embedding engineering site after being packaged by ceramics.

Further, the system for recording and tracing the construction process in the tile inlaying engineering provided by the invention is characterized in that:

and the mobile terminal transmits the constructor information, the construction material information, the construction information and the related information acquired by the embedded terminal to the server in a correlation index mode.

Further, the system for recording and tracing the construction process in the tile inlaying engineering provided by the invention is characterized in that:

the server comprises a data storage module;

the data storage module is used for classifying and storing the received information, so that the front end of the equipment can search data in different categories.

Further, the system for recording and tracing the construction process in the tile inlaying engineering provided by the invention is characterized in that:

the server comprises a statistic module;

the statistical module is used for carrying out statistics and analysis on the information sent back by each mobile terminal to obtain an analysis report.

Further, the system for recording and tracing the construction process in the tile inlaying engineering provided by the invention is characterized in that:

the server comprises a feedback module;

the feedback module records feedback information;

when the feedback information has a 'bad' condition, the statistical module generates a bad reason investigation report.

Further, the system for recording and tracing the construction process in the tile inlaying engineering provided by the invention is characterized in that:

the generation process of the bad cause investigation report comprises at least one of the following steps:

s1, obtaining feedback information of all projects executed by all constructors related to the investigated project, calculating the project reject ratio of each constructor according to the feedback information, and sequencing;

s2, acquiring feedback information of all projects executed by the construction material information related to the project to be investigated, calculating the reject ratio of each construction material according to the feedback information, and sequencing;

and S3, acquiring construction information related to the investigated project, comparing the construction template process, and acquiring the content of the difference between the construction template process and the construction template process.

Further, the system for recording and tracing the construction process in the tile inlaying engineering provided by the invention is characterized in that:

the server comprises an alarm module;

the statistical module is used for counting feedback information of projects in which all constructors participate, and when the project reject ratio of a specific constructor reaches a threshold value, the warning module is used for warning the front end of the equipment;

the statistical module is used for counting feedback information of projects in which all construction materials participate, and when the project reject ratio of a specific construction material reaches a threshold value, the warning module is used for warning the front end of the equipment;

the counting module counts the feedback information of the projects related to all the construction processes, and warns at the front end of the equipment through the warning module when the project reject ratio of a specific construction process reaches a threshold value.

The invention has the beneficial effects that:

the invention relates to a scheme for recording and tracing the construction process in tile inlaying engineering. The system can effectively identify and display constructor information, construction process materials and construction method information of the tile embedding project, review and summarize the problem areas of the tile embedding project, provide auxiliary information for finding the reasons of the problems, and promote constructors to improve the technical level by reviewing and analyzing the projects. The rework rate of the project is reduced, and the material waste is reduced.

Drawings

Fig. 1 is a flowchart of a system for recording and tracing a construction process in a tile setting project according to this embodiment.

Detailed Description

This embodiment provides a scheme of carrying out record, traceing back to the work progress among the ceramic tile inlays the engineering, includes:

the storage chip is used for being buried in the appointed part in the tile inlaying project in the project site;

the reading and writing equipment is used for writing and reading chip information;

and the server is used for recording the construction process information.

In this embodiment, the memory chip is a non-contact memory chip for transmitting information by radio frequency, the chip is packaged by ceramic to ensure that the chip does not lose effectiveness in the strong alkaline environment of cement mortar, and the chip has a memory space for writing data.

In specific construction work, the chip can be embedded at any position, and the chip can be embedded at a specific position which is easy to find and identify in consideration of convenience in subsequent searching.

The number of chips to be embedded is generally selected according to the size of the process, for example: a recording chip can be embedded in a toilet of a residential unit; if the engineering is large, the construction can be divided into a plurality of different positions to be buried respectively.

The main objectives regarding chip embedding are: and recording the information of the construction condition.

The chip is set at the time of shipment and has a unique corresponding number. In this embodiment, the mobile reader for reading and writing information is a mobile reader for transmitting information by radio frequency, and can write index information into the memory chip and read the index information; the information of constructors, construction material and pictures or images on the construction site can be uploaded to the server in a related index mode.

In this embodiment, the server for recording the construction process information is configured to receive the information uploaded by the mobile reader, and classify, integrate, and store the information for data search in different search modes.

The specific operation process is shown in figure 1,

during construction, each construction worker has a unique corresponding work number, which is entered into the chip during each construction, and information corresponding to this number is stored in the server. Meanwhile, the chip embedding time, the field construction condition and the like are input into the server, and the information during construction can be obtained from the server by looking up the number later, so that the traceability purpose is achieved.

And after the information is butted, burying the chip into a construction site.

In the subsequent construction process, when the project is started every time and the mobile terminal records information, the information is subjected to label alignment with the chip, so that the effect that the uploaded data can be automatically stored into the corresponding database according to the label every time when the data is transmitted to the server is achieved.

Meanwhile, the chip can automatically form a line of data of the alignment time information in the alignment process. Facilitating the subsequent examination.

Furthermore, when a project with an engineering quality problem occurs, the complete information of the corresponding whole construction process can be obtained from the server by reading data such as codes in the chip, so that technicians can judge the main reason of the engineering problem.

In addition, the server comprises a storage module;

the data storage module classifies the received information into the chip packages corresponding to the received information respectively and also classifies and stores the information, so that the front end of the equipment can search data in different categories.

The classification basis can be manually set according to the front end, for example: the method includes the steps of classifying according to constructors, classifying according to the type of the pasted tiles, classifying according to construction processes, classifying according to regions, classifying according to climate, classifying according to construction year and month and the like.

The server also comprises a statistic module;

in the actual engineering, the statistical module performs statistics and analysis on the information sent back by each mobile terminal to obtain an analysis report.

These statistical analysis processes may include:

the statistics can be carried out on the constructors, so that the constructors can know which engineering projects are constructed by the constructors, the problem occurrence probability is high or low, and the like.

The construction process can be counted, so that the engineering projects adopting the construction processes are known, the problem probability is high or low, and the like.

The construction materials can be counted, so that the engineering projects constructed by using the construction materials are known, the problem probability is high or the problem probability is low, and the like.

Through the data analysis, the dimension of the construction operation, the material and other angles of the personnel can be known, and the operation can be analyzed, which is a factor causing the engineering quality problem, so that the workers are informed to improve, and the aim of improving the engineering quality is fulfilled. Which materials are always problematic, can be changed by replacing materials, or can be process tuned for such materials.

Therefore, the problems that in the existing engineering, after workers construct, the reasons cannot be known, the workers usually guess and recall the reasons, the wrong construction method is used at the end, the errors of the workers are still caused by the problems of materials and the like, and because the reminding is not provided in the existing construction, the workers always adopt wrong processes or problematic materials in the subsequent construction stage, the problems occur again and again, and the quality is always unstable are solved.

In addition, the server also comprises a feedback module;

the feedback module records feedback information;

the statistics module also generates a bad cause investigation report, particularly when there is a "bad" condition in the feedback information.

The adverse cause survey report may include the results of one or more analyses of the influencing factors: for example: the possibility of the difference between the quality of constructors, the possibility of the improper selection of construction materials, the possibility of the improper selection of construction processes, and the like.

The analysis process of the above possibility may be:

A. acquiring feedback information of all projects executed by all constructors related to the project to be investigated, calculating the reject ratio of each constructor according to the feedback information, and sequencing;

B. acquiring feedback information of all projects executed by the construction material information related to the project to be investigated, calculating the reject ratio of each construction material according to the feedback information, and sequencing;

C. the construction information related to the investigated project is obtained, the construction template process is compared, and the content of the difference between the construction template process and the construction template process (the template process refers to the standard construction process stored in the system) is obtained.

Claims (9)

1. The utility model provides a system for carry out record and trace back to work progress among ceramic tile inlaying engineering which characterized in that:

the system comprises a pre-buried end, a mobile end and a server end;

the embedded end is a storage chip which is embedded in a specific position of a ceramic tile embedding project site;

the mobile terminal is a mobile read-write device capable of reading and writing information;

the server is a server which can receive and process the information used for recording the construction process from the mobile terminal.

2. A system for recording and tracing a construction process in a tile setting project as claimed in claim 1, wherein:

the embedded end is a non-contact storage chip which transmits information through radio frequency.

3. A system for recording and tracing a construction process in a tile setting project as claimed in claim 1, wherein:

the embedded end is embedded in a ceramic tile embedding engineering site after being packaged by ceramics.

4. A system for recording and tracing a construction process in a tile setting project as claimed in claim 1, wherein:

and the mobile terminal transmits the constructor information, the construction material information, the construction information and the related information acquired by the embedded terminal to the server in a correlation index mode.

5. A system for recording and tracing a construction process in a tile setting project as claimed in claim 1, wherein:

the server comprises a data storage module;

the data storage module is used for classifying and storing the received information, so that the front end of the equipment can search data in different categories.

6. A system for recording and tracing a construction process in a tile setting project as claimed in claim 1, wherein:

the server comprises a statistical module;

and the counting module is used for counting and analyzing the information sent back by each mobile terminal to obtain an analysis report.

7. The system for recording and tracing the construction process in the tile setting project according to claim 6, wherein:

the server comprises a feedback module;

the feedback module records feedback information;

when the feedback information has 'bad' condition, the statistical module generates a bad reason investigation report.

8. A system for recording and tracing a construction process in a tile setting project as claimed in claim 7, wherein:

the generation process of the adverse cause investigation report comprises at least one of the following steps:

s1, obtaining feedback information of all projects executed by all constructors related to the investigated project, calculating the project reject ratio of each constructor according to the feedback information, and sequencing;

s2, acquiring feedback information of all projects executed by the construction material information related to the project to be investigated, calculating the reject ratio of each construction material according to the feedback information, and sequencing;

and S3, acquiring construction information related to the investigated project, comparing the construction template process, and acquiring the content of the difference between the construction template process and the construction template process.

9. A system for recording and tracing a construction process in a tile setting project as claimed in claim 7, wherein:

the server comprises an alarm module;

the statistical module is used for counting feedback information of projects in which all constructors participate, and when the project reject ratio of a specific constructor reaches a threshold value, the warning module is used for warning the front end of the equipment;

the statistical module is used for counting feedback information of projects in which all construction materials participate, and when the project reject ratio of a specific construction material reaches a threshold value, the warning module is used for warning the front end of the equipment;

the counting module counts feedback information of projects related to all construction processes, and when the project reject ratio of a specific construction process reaches a threshold value, the warning module warns at the front end of the equipment.

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