CN113298369A - Information processing method and system for engineering quality detection and detection terminal - Google Patents

Abstract

The application relates to an information processing method for engineering quality detection, which comprises the following steps: the method comprises the steps that an intermediate server receives demand information which is sent by a project to be detected and requests for project quality detection, wherein the demand information comprises detection projects and detection places; the intermediate server distributes the detection tasks according to the demand information of the engineering project to be detected and sends the detection tasks to a detection unit; the detection unit receives the detection task, is equipped with detection equipment according to the requirements of the detection project, and reaches the detection site of the engineering project to be detected according to the requirement information; carrying out engineering quality detection on the engineering project to be detected to obtain detection data, and processing the detection data to generate a detection report; comparing and analyzing the detection data and the standard data to obtain and display a comparison result; and in the process that the detection unit finishes the detection task, feeding back the task state to the intermediate server. The method and the device have the effect of improving the overall efficiency of engineering quality detection.

Description

Information processing method and system for engineering quality detection and detection terminal

Technical Field

The present application relates to the field of engineering quality detection technologies, and in particular, to an information processing method, an information processing system, and a detection terminal for engineering quality detection.

Background

The quality detection of the construction project refers to the activity of testing and determining the quality characteristics of materials, construction parts, equipment, the quality of engineering entities, the use function and the like of the construction project according to related national laws, regulations, mandatory standards of the construction project and design files.

At present, the traditional project quality detection mode is that a project quality detection unit receives the detection service of project quality detection by depending on modes of user telephone, door-to-door reservation and the like of a service department. The detection unit arranges detection personnel according to the detection task, in the detection process, the detection personnel need to register the detection data on the detection report one by one, the detection data are compared and processed by inquiring the industry standard, and then the user takes the detection report away by the detection unit.

For the above related technologies, the inventor considers that the detection process is complicated in the above engineering quality detection service, which results in low overall efficiency of the engineering quality detection process.

Disclosure of Invention

In order to improve the overall efficiency of engineering quality detection, the application provides an information processing method, an information processing system and a detection terminal for engineering quality detection.

In a first aspect, an information processing method for engineering quality detection provided by the present application adopts the following technical scheme:

an information processing method for engineering quality detection comprises the following steps:

s1, receiving demand information which is sent by a project to be detected and requests for project quality detection, wherein the demand information comprises detection projects and detection places;

s2, the detection unit receives the detection tasks, distributes the detection tasks according to the demand information of the project to be detected, and sends the detection tasks to the detection unit;

s3, a detection unit is provided with detection equipment and arrives at a detection site according to the demand information of the project to be detected;

s4, carrying out engineering quality detection on the engineering project to be detected to obtain detection data, and processing the detection data to generate a detection report;

s5, comparing and analyzing the detection data and the standard data to obtain a comparison result and displaying the comparison result;

and S6, feeding back the task execution state in the process of executing the detection task by the detection personnel.

By adopting the technical scheme, the engineering project responsible person of the unit to be detected transmits the demand information of engineering quality detection through the intermediate server, the detection unit receives the detection task on line, the task is distributed according to the demand information such as the detection project, the detection time and the like, the detection task is distributed to specific detection personnel, the detection personnel are reminded, and meanwhile, the detection device list required to be equipped is provided. In the detection process, data detected by detection personnel can be directly transmitted to the intermediate server, a detection report is automatically generated, whether the data meet the industrial standard or not is displayed, and after the detection is finished, the detection report is perfected and the feedback of the task state is made to the intermediate server. Compared with the traditional engineering quality detection service, the invention improves the overall service efficiency.

Optionally, the intermediate server records occupational information and working states of detection personnel in the detection units, and after receiving the detection tasks, the intermediate server matches the requirement information provided by the project to be detected with the detection personnel information in the detection units to distribute the detection tasks.

Through adopting above-mentioned technical scheme, the record has inspector's professional information and work information in the intermediate server, and more suitable inspector is selected according to the professional direction of testing project to the intermediate server, further selects the inspector who carries out this test task according to operating time's arrangement simultaneously again, and system allocation is comparatively convenient and fast.

Optionally, the number information and the use state information of the detection devices are recorded in the intermediate server, and the corresponding detection device information is matched according to the detection items.

By adopting the technical scheme, the intermediate server selects the detection equipment information suitable for detection personnel according to the types of the detection items, so that the detection personnel can conveniently select according to the actual situation.

Optionally, after the intermediate server allocates the detection task, the intermediate server reminds the detection personnel to check and receive the task, and the reminding mode is one or more of a short message, a mailbox, a popup window reminding and the like.

By adopting the technical scheme, after the detection task is distributed, the detection personnel is reminded to check and receive the detection task, the occurrence of service confusion caused by untimely information exchange is reduced, meanwhile, short messages, mailboxes and popup windows are obviously reminded, and the possibility that the detection personnel cannot see the task distribution message due to negligence is reduced.

In a second aspect, the present application provides an information processing system for engineering quality inspection, which adopts the following technical solutions:

an information processing system for engineering quality detection comprises a server, a task transceiving subsystem, a task allocation subsystem, a data processing subsystem and a feedback subsystem, wherein the server is in communication connection with the task transceiving subsystem, the task allocation subsystem, the data processing subsystem and the feedback subsystem, the task transceiving subsystem is used for sending demand information of engineering detection to an engineering project to be detected and receiving a detection task by a detection unit, the task allocation subsystem is used for reasonably allocating the detection task to detection personnel, the data processing subsystem is used for processing detection data acquired by the detection personnel for the detection task, and the feedback subsystem is used for feeding back real-time progress of the detection personnel for the detection task.

By adopting the technical scheme, the project responsible person to be detected sends the demand information requesting for project quality detection through the task transceiving subsystem, the detection unit receives the detection task through the task transceiving subsystem, the steps of communication between the project responsible person to be detected and the detection unit are reduced, the task distribution subsystem reasonably distributes the detection task according to the information of the detection personnel, the phenomenon of uneven resource distribution is reduced, the data processing subsystem processes and analyzes the detection data of the detection personnel, the detection data is analyzed and sorted on line, the detection task management method is high in efficiency, and meanwhile, the feedback subsystem records the completion progress of the detection task in real time. The method and the device greatly improve the overall efficiency of the engineering quality detection service.

Optionally, the task allocation subsystem includes a detection staff database and a screening module, professional information and working state of detection staff inside a detection unit are recorded in the detection staff database, and the screening module screens out appropriate detection staff according to detection items to perform allocation of detection tasks.

By adopting the technical scheme, the occupation information and the working state of the detection personnel are recorded in the detection personnel database, the detection personnel with the consistent occupation are selected according to different detection items, and then the detection personnel are determined according to the detection time and the working time, so that the detection personnel are efficient and convenient.

Optionally, the task allocation subsystem includes a detection device database, and the number and usage information of the detection devices in the detection unit are recorded in the detection device database.

By adopting the technical scheme, the detection equipment database records the number and the use condition of the detection equipment in the detection unit, and reminds detection personnel to be equipped with the corresponding detection equipment when executing a detection task.

In a third aspect, the present application provides a detection terminal for engineering quality detection, which adopts the following technical scheme:

a test terminal for engineering quality testing, comprising a memory, a processor and a computer program stored in the memory and being executable on the processor, when loaded with the computer program, performing the method of any one of claims 1-4.

By adopting the technical scheme, the computer program is generated based on the information processing method for engineering quality detection in the first aspect and is stored in the memory so as to be loaded and executed by the processor, and therefore, the computer equipment is manufactured according to the memory and the processor, and the use by a user is facilitated.

Drawings

Fig. 1 is an overall method flowchart of an information processing method for engineering quality inspection according to the present application.

Fig. 2 is a block diagram of an information processing system for engineering quality inspection according to the present application.

Reference numerals: 1. a server; 2. a task transceiving subsystem; 21. a user terminal; 22. a inspector terminal; 3. a task allocation subsystem; 31. a detection personnel database; 32. detecting a device database; 33. a screening module; 34. a distribution module; 35. a reminding module; 36. a timing module; 4. a data processing subsystem; 41. a data acquisition module; 42. a data comparison module; 43. a data sorting module; 44. a standard file database; 45. a search module; 5. a feedback subsystem.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses an information processing method for engineering quality detection. Referring to fig. 1, an information processing method for engineering inspection includes the steps of:

and S1, receiving demand information which is sent by the project to be detected and requests for project quality detection, wherein the demand information comprises detection projects and detection places.

In the embodiment, the engineering project responsible person sends the required information of the engineering detection to the intermediate server, and clearly fills information of the detection project, the detection place and the like of the engineering project to be detected.

Specifically, the intermediate server is internally provided with classification options for various engineering detections, and an engineering project leader needs to select items required to be detected by the projects, for example, foundation engineering detection and steel structure engineering detection need to be performed, and then the engineering project leader selects the classification options for foundation engineering detection and the classification options for steel structure engineering detection on a user terminal. Meanwhile, the engineering project responsible person needs to clearly fill in the detection place, the detection time and the like so that the detection unit can call the detection place, the detection time and the like from the intermediate server.

And S2, distributing the detection tasks according to the demand information of the project to be detected, and sending the detection tasks to a detection unit.

The intermediate server receives the requirement information of the engineering project responsible person requesting for the engineering quality detection, allocates the detection tasks according to the requirement information of the engineering project responsible person, assigns the tasks to the detection personnel of the detection unit, and requires the detection personnel receiving the detection tasks to perform the detection.

Specifically, the intermediate server registers professional information and working states of all detection personnel in a detection unit, classifies detection tasks according to demand information provided by engineering project responsible persons, and simultaneously screens out detection personnel with proper professional matching and time to distribute the detection tasks. For example, after receiving the foundation engineering inspection project, the intermediate server needs to complete the following steps:

1. the intermediate server screens detection personnel taking the occupation direction as the foundation base detection direction;

2. removing the detection personnel with the detection time provided by the engineering project responsible personnel conflicting with the working time of the detection personnel from the detection personnel screened in the step 1;

3. and selecting a proper number of detection personnel from the detection personnel screened in the step 2 to distribute the detection tasks according to the scale of the detection items.

Specifically, in this embodiment, after the intermediate server allocates the detection task to a specific detection person, the intermediate server reminds the detection person to check and receive the detection task, where the reminding manner is one or more of a short message, a mailbox, a popup reminder, and the like, and the present invention is not limited thereto. Meanwhile, after the detection personnel receive the detection task, the intermediate server starts timing, and when the detection time is up to the day before, the intermediate server reminds the detection personnel to confirm the detection task again, so that the detection personnel can carry out the detection task on time.

And S3, the detection unit is provided with detection equipment and arrives at the detection site according to the requirement information of the project to be detected.

The intermediate server records the number and the use condition of various detection devices in a detection unit, lists a required detection device list according to detection items selected by an engineering project responsible person, such as a level meter, a total station and the like, reminds detection personnel to carry out allocation, and meanwhile, the detection personnel arrive at a detection place within a detection time range submitted by the engineering project responsible person.

And S4, carrying out engineering quality detection on the engineering project to be detected to obtain detection data, and processing the detection data to generate a detection report.

The method comprises the steps that detection personnel use detection equipment to detect engineering projects to be detected to obtain detection data, the detection personnel transmit the detection data to an intermediate server, and the intermediate server sorts and classifies the detection data.

Specifically, the detection personnel uses the detection equipment to detect each detection item, in this embodiment, the detection personnel can communicate the detection equipment with the intermediate server, directly transmit the detection data to the intermediate server in real time, and the detection data includes and is not limited to: the unmanned aerial vehicle video or monitoring video that the job site adopted, high strain foundation pile detector detected data, low strain foundation pile detector detected data, intensity detector detected data, resiliometer detected data, calibrator detected data etc.. After receiving the detection data, the intermediate server divides the obtained detection data into different modules according to types according to different detection items, generates corresponding electronic detection reports, such as foundation engineering detection reports, building curtain wall engineering detection reports, steel structure engineering detection reports and the like, and divides the detection reports of different classifications into more detailed data tables, for example, the foundation engineering detection reports comprise foundation bearing capacity static load detection reports, pile bearing capacity detection reports, anchor rod locking capacity detection reports, static force and dynamic sounding detection directions and the like. Meanwhile, the intermediate server is provided with a query window, so that detection personnel can search detection data of detection items by inputting keywords, and query is facilitated.

And S5, comparing and analyzing the detection data and the standard data, and obtaining and displaying a comparison result.

In this embodiment, the intermediate server includes standards corresponding to various engineering quality inspection items, and after inspection personnel input inspection data into the intermediate server, the intermediate server compares the inspection data with the corresponding engineering quality inspection standards to obtain a comparison result indicating whether the inspection data meets the requirements.

Specifically, in this embodiment, the standards of each detection item are made into corresponding standard files, meanwhile, the intermediate server provides a query window for the standard files, and the detection personnel can query the national industry standards corresponding to the detection items by inputting keywords to search for the corresponding standard files, so that the detection personnel can conveniently query the standard data. And the intermediate server compares the detection data with the standard data and records the comparison result in the detection report. For example, the building energy saving detection project comprises a building exterior window thermal insulation performance detection project, a K value is used in the industry to represent a thermal insulation coefficient, and a standard range of K in the industry standard is set as follows: a is more than or equal to K and less than or equal to b, the heat preservation coefficient of the outer window of the engineering project to be detected, which is detected by detection personnel, is K0, when K0< a or K0> b, the heat preservation coefficient is judged that K0 does not meet the standard, and the 'K0 < a' or 'K0 > b' is input into a detection report and displays a 'does not meet the standard' word; when a is not more than K0 and not more than b, inputting 'a not more than K0 and not more than b' into the detection report, and displaying the words of 'meeting the standard'.

And S6, feeding back the task execution state in the process of executing the detection task by the detection personnel.

Wherein, the testing personnel regularly feeds back the behavior in the testing process, for example, the testing personnel records "foundation bearing capacity dead load detection has been accomplished" etc. on the testing personnel terminal, is convenient for detect the unit record and detects the progress. After the detection task is completed, the detection personnel completes and stores the detection report, and simultaneously transmits the information of completion of the detection task to the intermediate server, the detection task is finished, and the subsequent detection personnel can directly download the detection report through the intermediate server.

The implementation principle of the information processing method for engineering quality detection in the embodiment of the application is as follows: the engineering project responsible person of the unit to be detected transmits the demand information of engineering quality detection through the intermediate server, receives the detection task on the detection unit line, carries out task allocation according to the demand information such as detection project, detection time and the like, allocates the detection task to specific detection personnel, reminds the detection personnel, and provides the detection device list that needs to be equipped. In the detection process, data detected by detection personnel can be directly transmitted to the intermediate server, a detection report is automatically generated, whether the data meet the industrial standard or not is displayed, and after the detection is finished, the detection report is perfected and the feedback of the task state is made to the intermediate server. Compared with the traditional engineering quality detection service, the invention improves the overall working efficiency.

The application discloses an information processing system for engineering quality detection, referring to fig. 2, the system comprises a server 1, a task transceiving subsystem 2, a task allocation subsystem 3, a data processing subsystem 4 and a feedback subsystem 5, wherein the server 1 is in communication connection with the task transceiving subsystem 2, the task allocation subsystem 3, the data processing subsystem 4 and the feedback subsystem 5, a person in charge of an engineering project to be detected sends a detection task to the server 1 through the task transceiving subsystem 2, a detection unit receives the detection task through the task transceiving subsystem 2, the task allocation subsystem 3 allocates the received detection task to a corresponding detection person in the detection unit, the detection person receives the detection task and then arrives at a detection site for detection, detection data are obtained, the data processing subsystem 4 collects and arranges the detection data collected by the detection person, and obtaining a detection report, and after the detection is finished, the detection personnel reflects the detection progress through the feedback subsystem 5.

In the embodiment, the task transceiving subsystem 2 includes a user terminal 21 and a tester terminal 22, in which the user terminal 21 and the tester terminal 22 may be one or more of mobile terminals such as a mobile phone, a tablet computer, and a computer, the user terminal 21 and the tester terminal 22 are both in communication connection with the server 1, a project manager sends required information to be tested on the project quality to the server 1 through the user terminal 21, and a testing unit receives a testing task in the server 1 through the tester terminal 22.

It is worth mentioning that clients or APPs of the task transceiving subsystem 2 are installed on the user terminal 21 and the inspector terminal 22, independent account numbers are logged in by engineering project responsible persons, inspection units and inspection personnel, and the account numbers of the inspection units are held by service responsible persons of the inspection units.

Specifically, the project responsible person uploads the key information of the project to be detected to the server 1 through the user terminal 21, including but not limited to detection project, detection time, detection place, etc., and the detection unit can acquire corresponding demand information while receiving tasks through the inspector terminal 22, so that the detection unit can conveniently know the information of the project to be detected.

The task allocation subsystem 3 selects proper detection personnel to allocate tasks according to the occupation direction, the detection time and other information of the detection tasks.

Specifically, the task allocation subsystem 3 includes a detection personnel database 31, a detection equipment database 32, a screening module 33, an allocation module 34, a reminding module 35 and a timing module 36, both the detection personnel database 31 and the detection equipment database 32 are stored in the server 1, wherein personnel information of all detection personnel is recorded in the detection personnel database 31, the personnel information includes but is not limited to occupation, working state and the like, for example, when the detection personnel is in a busy state, the working state is marked as "busy"; when the detection personnel are in the idle state on the day, the working state is marked as idle. The screening module 33 screens the detection personnel according to the detection tasks, and screens out proper detection personnel to distribute the detection tasks.

For example, when the project to be detected is a foundation project inspection project, the screening module 33 performs the following steps:

1. the screening module 33 screens the detection personnel whose occupation direction is the foundation base detection direction in the detection personnel database 31;

2. the screening module 33 further screens the working states of the detection personnel screened in step 1, and selects the detection personnel with the working states of idle in the detection time period;

3. the screening module 33 selects an appropriate number of testers according to the size of the test items.

The screening module 33 determines the corresponding inspector, and the assigning module 34 assigns tasks to the screened inspectors, assigns the same task to one or more persons, and sends the task information to the inspector terminals 22 of the inspectors. After the detection task is allocated to a specific detection person, the reminding module 35 reminds the detection person to check and receive the detection task, wherein the reminding mode is one or more of a short message, a mailbox, a popup window reminding and the like, and the method is not limited to this. The detection equipment database 32 records the number and the use state information of all the detection equipment in the detection unit, and carries out classification marking on the detection equipment, the distribution module 34 selects the detection equipment required to be equipped by the detection personnel from the detection equipment database 32 according to the type of the detection item, and the reminding module 35 sends the detection equipment information required to be equipped and the detection task distribution information to the detection terminal of the detection personnel together to remind the detection personnel to be equipped.

After the detection personnel confirm that the detection task is received, the timing module 36 starts to work, and when the detection time is up to the day before, the reminding module 35 reminds the detection personnel to confirm the detection task again, so that the detection personnel can carry out the detection task on time. In addition, the timing module 36 records the working status of the detection personnel as "busy" status on the day that the detection personnel work, reducing the possibility that the assignment module 34 repeatedly assigns the detection tasks.

When the detection personnel carry out engineering quality detection work, various information data of a detection project are detected by using detection equipment, and the data processing subsystem 4 collects and processes the information data collected by the detection personnel so as to visually represent the detection result of the detection project.

Specifically, the data processing subsystem 4 includes a data acquisition module 41, a data comparison module 42, a data sorting module 43, a standard file database 44 and a search module 45, the data acquisition module 41 is used for acquiring detection data of detection personnel, wherein, the detection mode is detection equipment field detection, in this embodiment, the detection equipment is in communication connection with the server 1, data on the detection equipment can be directly recorded into the data sorting module 43, the data sorting module 43 sorts the monitoring data, and generates a detection report, and records each detection data. The standard file database 44 is used for storing standards and reference data corresponding to various project quality testing projects, and the data comparison module 42 is used for comparing the testing data collected by the data collection module 41 with the standard data stored in the standard file database 44 to obtain a comparison result.

For example, the building energy saving detection project comprises a building exterior window thermal insulation performance detection project, a K value is used in the industry to represent a thermal insulation coefficient, and a standard range of K in the industry standard is set as follows: a is more than or equal to K and less than or equal to b, the heat preservation coefficient of the outer window of the engineering project to be detected, which is detected by detection personnel, is K0, when K0< a or K0> b, the heat preservation coefficient is judged that K0 does not meet the standard, and the 'K0 < a' or 'K0 > b' is input into a detection report and displays a 'does not meet the standard' word; when a is not more than K0 and not more than b, inputting 'a not more than K0 and not more than b' into the detection report, and displaying the words of 'meeting the standard'.

The search module 45 communicates with the server 1, and the detection personnel can inquire the data information in the detection report and the standard file database 44 by inputting the key words in the search module 45, so that the number of paper files which the detection personnel need to carry with is reduced, and the method is very convenient.

The feedback subsystem 5 is used for reporting the detection progress in real time by the detection personnel and recording the detection progress by the server 1 so as to know the working efficiency of the detection personnel and the encountered real-time situation. After the detection task is finished, the detector logs in the detector terminal 22, the detection report is completely supplemented, a task completion instruction is sent to the server 1, and the detection task is completed.

The implementation principle of the information processing system for engineering quality detection in the embodiment of the application is as follows: the project responsible person who waits to detect sends the detection task to server 1 through task transceiver subsystem 2, and the detection unit receives the detection task through task transceiver subsystem 2, and task distribution subsystem 3 distributes the detection task who receives to the detection personnel who corresponds in the detection unit, and the detection personnel arrives the detection scene after receiving the detection task and detects to obtain the testing data, and data processing subsystem 4 collects the testing data of detection personnel collection and arranges in order, obtains the test report, and the detection personnel pass through feedback subsystem 5 reaction detection progress after the detection is accomplished. According to the method and the device, the more complicated steps in the traditional engineering quality detection service are reduced, and the overall efficiency of engineering quality detection is improved.

The embodiment of the application discloses a detection terminal for engineering quality detection, which comprises a memory, a processor and a computer program which is stored in the memory and can run on the processor, wherein when the processor loads the computer program, the information processing method for engineering quality detection is executed.

The computer device may be a desktop computer, a notebook computer, or a cloud server, and the computer device includes but is not limited to a processor and a memory, for example, the computer device may further include an input/output device, a network access device, a bus, and the like.

The processor may be a Central Processing Unit (CPU), and of course, according to an actual use situation, other general processors, Digital Signal Processors (DSPs), Application Specific Integrated Circuits (ASICs), Field Programmable Gate Arrays (FPGAs) or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components, and the like may also be used, and the general processor may be a microprocessor or any conventional processor, and the present application does not limit the present invention.

The memory may be an internal storage unit of the computer device, for example, a hard disk or a memory of the computer device, or an external storage device of the computer device, for example, a plug-in hard disk, a Smart Memory Card (SMC), a secure digital card (SD) or a flash memory card (FC) equipped on the computer device, or a combination of the internal storage unit of the computer device and the external storage device, and the memory is used for storing a computer program and other programs and data required by the computer device, and may also be used for temporarily storing data that has been output or will be output, which is not limited in this application.

The information processing method for engineering quality detection of the embodiment is stored in a memory of the computer device through the computer device, and is loaded and executed on a processor of the computer device, so that the information processing method is convenient for a user to use.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. An information processing method for engineering quality detection is characterized in that: the method comprises the following steps:

s1, receiving demand information which is sent by a project to be detected and requests for project quality detection, wherein the demand information comprises detection projects and detection places;

s2, the detection unit receives the detection tasks, distributes the detection tasks according to the demand information of the project to be detected, and sends the detection tasks to the detection unit;

s3, a detection unit is provided with detection equipment and arrives at a detection site according to the demand information of the project to be detected;

s4, carrying out engineering quality detection on the engineering project to be detected to obtain detection data, and processing the detection data to generate a detection report;

s5, comparing and analyzing the detection data and the standard data to obtain a comparison result and displaying the comparison result;

and S6, feeding back the task execution state in the process of executing the detection task by the detection personnel.

2. The information processing method for engineering quality inspection according to claim 1, characterized in that: the intermediate server records occupational information and working states of detection personnel in the detection units, and after receiving the detection tasks, the intermediate server matches the requirement information provided by the project to be detected with the detection personnel information in the detection units to distribute the detection tasks.

3. The information processing method for engineering quality inspection according to claim 2, characterized in that: the intermediate server records the quantity information and the use state information of the detection equipment, and matches corresponding detection equipment information according to the detection items.

4. The information processing method for engineering quality inspection according to claim 3, characterized in that: after the intermediate server distributes the detection tasks, the intermediate server reminds the detection personnel to check and receive the tasks, and the reminding mode is one or more of short messages, mailbox reminding or popup reminding and the like.

5. An information processing system for engineering quality inspection, characterized by: the system comprises a server (1), a task transceiving subsystem (2), a task distribution subsystem (3), a data processing subsystem (4) and a feedback subsystem (5), wherein the server (1) is in communication connection with the task transceiving subsystem (2), the task distribution subsystem (3), the data processing subsystem (4) and the feedback subsystem (5), the task transceiving subsystem (2) is used for receiving detection tasks through demand information of project detection of the project to be detected and a detection unit, the task distribution subsystem (3) is used for reasonably distributing the detection tasks to detection personnel, the data processing subsystem (4) is used for processing detection data acquired by the detection personnel through the detection tasks, and the feedback subsystem (5) is used for feeding back real-time progress of the detection personnel during the detection tasks.

6. An information processing system for engineering quality inspection according to claim 5, characterized in that: the task allocation subsystem (3) comprises a detection personnel database (31) and a screening module (33), professional information and working states of detection personnel in a detection unit are recorded in the detection personnel database (31), and the screening module (33) screens out proper detection personnel according to detection items to perform allocation of detection tasks.

7. An information processing system for engineering quality inspection according to claim 6, characterized in that: the task distribution subsystem (3) comprises a detection equipment database (32), and the number and the use information of detection equipment in a detection unit are recorded in the detection equipment database (32).

8. A test terminal for engineering quality testing, comprising a memory, a processor and a computer program stored in the memory and capable of running on the processor, characterized in that: the processor, when loaded with a computer program, performs the method of any of claims 1-4.

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