CN-122022597-A - Engineering quality detection system and method based on intelligent measurement equipment

Abstract

The invention discloses an engineering quality detection system and method based on intelligent measurement equipment, and belongs to the technical field of engineering quality detection. The system comprises an intelligent measuring equipment module, a mobile terminal module, a project management module and an enterprise configuration module. The invention realizes automatic acquisition, analysis and filling of measurement data through Bluetooth connection of the intelligent equipment and the mobile terminal, solves the problems of low efficiency and easy error of traditional manual detection, carries out local real-time qualification judgment by a rule engine built in the mobile terminal, carries out visual marking on unqualified points on a drawing by a CAD engine and forcibly requires explosion point placement. The invention not only greatly improves the detection efficiency, but also effectively ensures the authenticity and traceability of the detection data by prohibiting strategies such as manual input, forced drawing labeling and the like, and realizes the digital closed-loop management of engineering quality.

Inventors

• WANG YIBO
• ZHANG LINGRU
• GUO RUIZHEN
• ZHU CHAO

Assignees

• 中国能源建设集团天津电力建设有限公司

Dates

Publication Date

20260512

Application Date

20260403

Claims (10)

1. 1. Engineering quality detecting system based on intelligent measuring equipment, characterized by comprising: the intelligent measurement equipment module is used for acquiring physical quantity data of an engineering site, packaging the physical quantity data into a structured data packet and then broadcasting and transmitting the structured data packet through a Bluetooth wireless protocol; The mobile terminal module is in communication connection with the intelligent measurement equipment module and is used for receiving and analyzing the structured data packet, and automatically filling the analyzed measurement value into a corresponding measurement sub-item; The project management module is used for configuring a measurement task, associating construction drawings and receiving detection data from the mobile terminal module; the enterprise configuration module is used for making an enterprise-level actual measurement index library and a judgment standard and synchronizing the actual measurement index library and the judgment standard to the project management module; The mobile terminal module further comprises a bursting point marking unit, the bursting point marking unit is integrated with a CAD engine, and when the qualification judging unit judges that the measured value is unqualified, the bursting point marking unit is configured to call an associated CAD drawing and carry out visual position marking on the unqualified point on the CAD drawing.
2. 2. The intelligent measurement equipment-based engineering quality detection system according to claim 1, wherein the structured data packet adopts a fixed frame format, and the frame format sequentially comprises a start mark, an equipment ID, an equipment type code, a measurement value, a time stamp, a check bit and an end mark; The mobile terminal module comprises a data acquisition unit, wherein the data acquisition unit is configured to analyze the equipment type code and the measurement type code, identify measurement items required by a current measurement task, and automatically fill the measurement values into input boxes corresponding to the measurement items.
3. 3. The intelligent measurement equipment-based engineering quality inspection system according to claim 1, wherein the qualification judging unit is provided with a range algorithm, and when the evaluation standard is set to enable range calculation, the qualification judging unit is configured to calculate the absolute value of the difference between the maximum measurement value and the minimum measurement value in the same area as the range value, and only judge that the area is qualified when all single-point measurement values in the area are within the allowable error range and the range value does not exceed a preset threshold value.
4. 4. The intelligent measurement equipment-based engineering quality detection system according to claim 1, wherein the enterprise configuration module comprises a policy management unit, wherein the policy management unit is used for configuring a global management policy, and the global management policy comprises a forced explosion point labeling policy and a manual input prohibition policy; When the forced explosion point labeling strategy is started, if the qualification judging unit judges that the result is unqualified, the mobile terminal module locks the task submitting function until the labeling operation of the unqualified point is detected to be finished on the CAD drawing.
5. 5. The intelligent measurement device-based engineering quality inspection system of claim 1, wherein the data processing module further comprises a flow engine for managing the rectification loop; When there is a disqualified point in the measurement task, the flow engine is configured to generate a modification task associated with the original measurement record, and after the modification is completed, the flow engine allows the original disqualified measurement value to be modified and records a modification history including the original value, the modification value and the modification time.
6. 6. The intelligent measurement equipment-based engineering quality detection system according to claim 1, wherein the index configuration unit of the enterprise configuration module establishes the actual measurement index library by adopting a hierarchical structure, and the hierarchical structure comprises a primary index name and a secondary specific index item under the primary index name; The standard setting unit independently configures a judging standard for each secondary specific index item, wherein the judging standard comprises a reference value, an allowed error interval, whether an absolute value is taken and whether a self-defined reference value is allowed.
7. 7. The engineering quality detection system based on intelligent measurement equipment according to claim 1, wherein the intelligent measurement equipment module comprises at least one of a digital display guiding ruler, an intelligent laser range finder, a high-strength resiliometer, a low-strength resiliometer, a steel bar scanner and a floor thickness meter; And a pairing-free connection mode based on service UUID identification is adopted between the intelligent measurement equipment module and the mobile terminal module.
8. 8. An engineering quality detection method based on intelligent measurement equipment, which is applied to the system of any one of claims 1-7, and is characterized by comprising the following steps: S1, establishing an actual measurement index library through an enterprise configuration module, and configuring a judgment standard comprising a reference value and an allowable error range for each index; s2, a measurement task is created through the project management module, a measurement part is designated, a corresponding CAD drawing is associated, and the task is distributed to the mobile terminal module; s3, the mobile terminal module is connected with the intelligent measuring equipment module, receives measuring data sent by equipment and automatically fills the measuring data; S4, the mobile terminal module utilizes a built-in rule engine to carry out local real-time qualification judgment on the measured data; s5, if the judging result is unqualified, invoking a CAD engine at the mobile terminal module, and marking positions of unqualified points on the associated CAD drawing; And S6, uploading the task record containing the measurement data and the labeling information to the project management module.
9. 9. The method for detecting engineering quality based on intelligent measurement equipment according to claim 8, wherein in the step S4, if the evaluation criterion is set to be an absolute value, the determination formula is: ; Wherein, the As a result of the actual measurement of the value, As a reference value for the value of the reference, In order to allow for a lower limit of the deviation, To allow for an upper bound of the deviation.
10. 10. The method for detecting engineering quality based on intelligent measurement equipment according to claim 8, wherein the step S1 further comprises setting a project overall target qualification rate; the method also comprises step S7, the project management module receives the uploaded task record according to the formula Automatically calculating the actual qualification rate, and outputting a comparison analysis result of the actual qualification rate and the target qualification rate; Wherein, the The qualification rate is indicated by the method, The number of the qualified measuring points is represented, Indicating the total number of measurement points.

Description

Engineering quality detection system and method based on intelligent measurement equipment Technical Field The invention relates to the technical field of engineering quality detection, in particular to an engineering quality detection system and method based on intelligent measurement equipment. Background Engineering quality detection is an important link in the construction process of a building, and relates to on-site measurement and qualification judgment of a plurality of indexes such as verticality, flatness, section size, protective layer thickness, concrete strength and the like of a concrete structure. Under the traditional detection mode, on-site operators use measuring tools such as a guiding ruler, a measuring tape, a rebound instrument and the like to carry out manual measurement, the measured values are transcribed on a paper form one by one, and then a special person records data into an electronic system to carry out statistical analysis. The traditional mode has the defects that on one hand, the manual reading and manual transcription process is easily influenced by subjective factors, the reading deviation, transcription omission and even data tampering risks exist, the authenticity and reliability of detected data are difficult to guarantee, on the other hand, paper records can enter an information system through multiple transcription methods, the flow is complicated, the efficiency is low, and real-time judgment and instant feedback of measured data are difficult to realize. The existing part of informatization system supports electronic input and statistical analysis of detection data, but the measurement equipment and the information system still rely on manual input to conduct data transmission, direct data butt joint of a measurement terminal and a service system cannot be achieved, the problem of data distortion caused by manual intervention links cannot be fundamentally eliminated, and meanwhile, a complete data link support from enterprise standard establishment, on-site data acquisition and quality analysis traceability is also lacking. Disclosure of Invention The invention mainly aims to provide an engineering quality detection system and method based on intelligent measurement equipment, so as to solve the problems in the related art. To achieve the above object, according to one aspect of the present invention, there is provided an engineering quality inspection system based on an intelligent measuring apparatus, comprising: the intelligent measurement equipment module is used for acquiring physical quantity data of an engineering site, packaging the physical quantity data into a structured data packet and then broadcasting and transmitting the structured data packet through a Bluetooth wireless protocol; The mobile terminal module is in communication connection with the intelligent measurement equipment module and is used for receiving and analyzing the structured data packet, and automatically filling the analyzed measurement value into a corresponding measurement sub-item; The project management module is used for configuring a measurement task, associating construction drawings and receiving detection data from the mobile terminal module; the enterprise configuration module is used for making an enterprise-level actual measurement index library and a judgment standard and synchronizing the actual measurement index library and the judgment standard to the project management module; The mobile terminal module further comprises a bursting point marking unit, the bursting point marking unit is integrated with a CAD engine, and when the qualification judging unit judges that the measured value is unqualified, the bursting point marking unit is configured to call an associated CAD drawing and carry out visual position marking on the unqualified point on the CAD drawing. Further, the structured data packet adopts a fixed frame format, and the frame format sequentially comprises a start mark, a device ID, a device type code, a measurement value, a time stamp, a check bit and an end mark; The mobile terminal module comprises a data acquisition unit, wherein the data acquisition unit is configured to analyze the equipment type code and the measurement type code, identify measurement items required by a current measurement task, and automatically fill the measurement values into input boxes corresponding to the measurement items. Further, when the evaluation standard is set to enable the range calculation, the qualification determining unit is configured to calculate the absolute value of the difference between the maximum measured value and the minimum measured value in the same area as a range value, and only when all single-point measured values in the area are within the allowable error range and the range value does not exceed a preset threshold value, the qualification determining unit determines that the area is qualified. Further, the enterprise configuration module compris