CN111881194A - System and method for collecting engineering test data - Google Patents

Abstract

The invention discloses a system and a method for collecting engineering test data, relating to the technical field of information communication; the system comprises a first terminal, a first server, an equipment test template module and an engineering test information collection module, wherein the equipment test template module is used for a construction manager to input an equipment test template into the first server; the engineering test information collection module is used for acquiring information of an equipment test template, an engineering project, a physical ID and technical parameters of materials from the first server through the first terminal by constructors, inputting corresponding test information into the first terminal according to the information of the engineering project, the physical ID and the technical parameters of the materials and generating an engineering test report; the method comprises the following steps of S1 equipment test template and S4 engineering test information collection; the device information collection working efficiency and the accuracy rate of the power grid system during construction period are high through the device test template module, the engineering test information collection module and the like.

Description

System and method for collecting engineering test data

Technical Field

The invention relates to the technical field of information communication, in particular to a system and a method for collecting engineering test data.

Background

At present, the problem of low working efficiency exists in the construction process of an electric power system, and the method is as follows.

And (4) carrying the paper file to the site by constructors, searching site equipment according to the engineering project information, the material object information and the material technical parameter information, and carrying out test work. After the test is finished, the constructor makes engineering project, material technical parameters and test information into an engineering test report and inputs the engineering test report into the system.

And (4) allowing operation maintenance personnel to bring the paper file to the site, searching the site equipment according to the engineering project information, the material object information and the material technical parameter information, and performing test work.

In the process of building the electric power system, two times of test work are needed, constructors independently perform one time of test work, and then operation and maintenance personnel independently perform one time of test work. Because two people dial all carry paper file and carry out work, the field operation equipment construction information is asymmetric with construction handover equipment electronic information, the inconsistent problem of information appears very easily, leads to the operation maintainer to go the archives again and look up paper equipment information, wastes time and energy.

The private power network is an internet network dedicated for internal use by power companies.

Problems with the prior art and considerations:

how to solve the technical problem that the equipment information collection efficiency and the accuracy are low during the construction period of a power grid system.

Disclosure of Invention

The invention aims to solve the technical problem of providing a system and a method for collecting engineering test data, which realize high working efficiency and high accuracy of equipment information collection in the construction period of a power grid system through a first terminal, a first server, an equipment test template module, an engineering test information collection module and the like.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows: a system for collecting engineering test data comprises a first terminal and a first server used by construction personnel, an equipment test template module and an engineering test information collecting module, wherein the first terminal is connected with and communicated with the first server, the first server stores information comprising engineering projects, material IDs (identity) and material technical parameters, and the equipment test template module is used for a construction manager to record an equipment test template into the first server; the engineering test information collection module is used for the constructor to obtain information of the equipment test template, the engineering project, the material object ID and the material technical parameters from the first server through the first terminal, the constructor inputs corresponding test information into the first terminal according to the information of the engineering project, the material object ID and the material technical parameters and generates an engineering test report, and the first terminal sends the engineering test report to the first server.

The further technical scheme is as follows: in the equipment test template module, a test template comprises fields of an engineering name, a work breakdown structure WBS name, a material object ID, material technical parameters and test information, wherein the material technical parameters comprise a manufacturer, a delivery date, a specification model and an equipment type; in the engineering test information collection module, the engineering project information includes information of an engineering name and a work breakdown structure WBS name.

The further technical scheme is as follows: the system comprises a first server, a second server, an engineering test information query module and a control module, and further comprises a second terminal, the second server and the engineering test information query module, wherein the second terminal is used for being used by operation and maintenance personnel, the second terminal is connected with and communicates with the second server, the second server is connected with and communicates with the first server, and the engineering test information query module is used for the operation and maintenance personnel to acquire information of engineering projects, physical IDs and material technical parameters on the first server through the second terminal.

The further technical scheme is as follows: the system comprises a first server, a second server and an engineering project information module, and is characterized by further comprising a third terminal and a third server used by construction management personnel, wherein the third terminal is connected with and communicates with the third server, the third server is connected with and communicates with the first server, and the engineering project information module is used by the construction management personnel to send and store information of engineering projects and physical IDs corresponding to the engineering projects in the first server through the third terminal.

The further technical scheme is as follows: the system comprises a first server, a second server and a material technical parameter module, wherein the first server is used for storing material technical parameters corresponding to the physical ID and the physical ID, the second server is used for storing the material technical parameters corresponding to the physical ID and the physical ID, and the material technical parameter module is used for enabling the equipment supplier to transmit the material technical parameters corresponding to the physical ID and the physical ID to the first server through the second server and storing the material technical parameters in the first server.

S1 equipment test template, the construction manager inputs the equipment test template into the first server; s4 engineering test information is collected, construction personnel obtain information of the equipment test template, the engineering project, the physical ID and the material technical parameter from the first server through the first terminal, the construction personnel input corresponding test information into the first terminal according to the information of the engineering project, the physical ID and the material technical parameter to generate an engineering test report, and the first terminal sends the engineering test report to the first server.

The further technical scheme is as follows: and a step S5 of inquiring engineering test information after the step S4, wherein the operation maintenance personnel acquires information of engineering projects, physical IDs and material technical parameters on the first server through the second terminal.

The further technical scheme is as follows: and a step of S2 of engineering project information between the steps S1 and S4, wherein the construction manager transmits the information of the engineering project and the physical ID corresponding to the engineering project through a third terminal to the first server and stores the information in the first server.

The further technical scheme is as follows: and a step of S3 material technical parameters between the steps S1 and S4, wherein the equipment supplier sends the information of the material technical parameters corresponding to the physical ID and the physical ID through a fourth server and stores the information in the first server.

The further technical scheme is as follows: and a step of S3 material technical parameters between the steps S2 and S4, wherein the equipment supplier sends the information of the material technical parameters corresponding to the physical ID and the physical ID through a fourth server and stores the information in the first server.

Adopt the produced beneficial effect of above-mentioned technical scheme to lie in:

a system for collecting engineering test data comprises a first terminal and a first server used by construction personnel, an equipment test template module and an engineering test information collecting module, wherein the first terminal is connected with and communicated with the first server, the first server stores information comprising engineering projects, material IDs (identity) and material technical parameters, and the equipment test template module is used for a construction manager to record an equipment test template into the first server; the engineering test information collection module is used for the constructor to obtain information of the equipment test template, the engineering project, the material object ID and the material technical parameters from the first server through the first terminal, the constructor inputs corresponding test information into the first terminal according to the information of the engineering project, the material object ID and the material technical parameters and generates an engineering test report, and the first terminal sends the engineering test report to the first server. The device information collection method has the advantages that the work efficiency and the accuracy of the device information collection in the construction period of the power grid system are high through the first terminal, the first server, the device test template module, the engineering test information collection module and the like.

S1 equipment test template, the construction manager inputs the equipment test template into the first server; s4 engineering test information is collected, construction personnel obtain information of the equipment test template, the engineering project, the physical ID and the material technical parameter from the first server through the first terminal, the construction personnel input corresponding test information into the first terminal according to the information of the engineering project, the physical ID and the material technical parameter to generate an engineering test report, and the first terminal sends the engineering test report to the first server. Through the steps of collecting S1 equipment test templates and S4 engineering test information, the working efficiency and the accuracy of equipment information collection in the construction period of the power grid system are high.

See detailed description of the preferred embodiments.

Drawings

FIG. 1 is a schematic block diagram of embodiment 1 of the present invention;

FIG. 2 is a schematic block diagram of embodiment 2 of the present invention;

FIG. 3 is a schematic block diagram of embodiment 3 of the present invention;

FIG. 4 is a flowchart of embodiment 4 of the present invention;

FIG. 5 is a flowchart of embodiment 5 of the present invention;

fig. 6 is a flowchart of embodiment 6 of the present invention.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the application, its application, or uses. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, but the present application may be practiced in other ways than those described herein, and it will be apparent to those of ordinary skill in the art that the present application is not limited to the specific embodiments disclosed below.

Example 1:

as shown in FIG. 1, the invention discloses a system for collecting engineering test data, which comprises a first terminal and a first server used by constructors, and two program modules including an equipment test template module and an engineering test information collecting module, wherein the first terminal is in wireless connection and bidirectional communication with the first server through a private power network.

And the equipment test template module is used for a construction manager to input and store the equipment test template into the first server, the test template comprises an engineering name, a work breakdown structure WBS name, a real object ID, technical material parameters and fields of test information, and the technical material parameters comprise manufacturers, delivery dates, specification models and equipment types.

The engineering test information collection module is used for the constructor to obtain information of the equipment test template, the engineering name, the work breakdown structure WBS name, the physical ID and the material technical parameter from the first server through the first terminal, the first terminal fills the information of the engineering name, the work breakdown structure WBS name, the physical ID and the material technical parameter into corresponding fields of the equipment test template, the constructor inputs the test information into the corresponding fields of the equipment test template through the first terminal and generates an engineering test report, and the first terminal sends and stores the engineering test report in the first server.

The construction personnel operate through the micro application on the first terminal, the first terminal and the first server form an electronic engineering file transfer platform, and the first terminal, the first server and the corresponding communication connection technology are not described in detail in the prior art.

Example 1 description of use:

when the construction manager carries out the equipment test, the engineering project information and the real object ID information are recorded and stored in the first server.

The equipment supplier records and stores the technical parameter information and the physical ID information of the goods and materials in the first server.

The method comprises the steps that a constructor obtains an equipment test template from a first server through a first terminal and opens the equipment test template, the constructor selects a test engineering name from the equipment test template, the first terminal obtains information of a work breakdown structure WBS name, a real object ID and a material technical parameter corresponding to the engineering name from the first server according to the engineering name selected by the constructor, the first terminal fills the information of the engineering name, the work breakdown structure WBS name, the real object ID and the material technical parameter into corresponding fields of the equipment test template, and the constructor searches field equipment according to the information of the engineering project, the information of the real object ID and the material technical parameter and conducts test work. The construction personnel enter the test information into the corresponding field of the equipment test template through the first terminal and generate an engineering test report, and the first terminal sends and stores the engineering test report in the first server.

Constructors obtain the technical parameters of the materials from the first server through the first terminal, and the first terminal inputs the obtained technical parameters of the materials into the engineering test information table on the first terminal, so that the workload of the constructors is simplified, and the constructors do not need to input the technical parameters of the materials.

Inventive concept of example 1:

through the first terminal and the first server used by constructors, the equipment test template module, the engineering test information collection module and the like, the equipment information collection working efficiency and the accuracy rate during the construction period of the power grid system are high.

Example 2:

the embodiment 2 is different from the embodiment 1 in that the system further comprises a second terminal and a second server used by operation and maintenance personnel, and an engineering test information query module.

As shown in fig. 2, the present invention discloses a system for collecting engineering test data, which includes three program modules, namely, a first terminal and a first server for constructors to use, a second terminal and a second server for operation and maintenance personnel to use, an equipment test template module, an engineering test information collection module and an engineering test information query module, wherein the first terminal is wirelessly connected and bidirectionally communicated with the first server through a private power network, the second terminal is wirelessly connected and bidirectionally communicated with the second server through the private power network, and the second server is wirelessly connected and bidirectionally communicated with the first server through the private power network.

And the equipment test template module is used for a construction manager to input and store the equipment test template into the first server, the test template comprises an engineering name, a work breakdown structure WBS name, a real object ID, technical material parameters and fields of test information, and the technical material parameters comprise manufacturers, delivery dates, specification models and equipment types.

The engineering test information collection module is used for the constructor to obtain information of the equipment test template, the engineering name, the work breakdown structure WBS name, the physical ID and the material technical parameter from the first server through the first terminal, the first terminal fills the information of the engineering name, the work breakdown structure WBS name, the physical ID and the material technical parameter into corresponding fields of the equipment test template, the constructor inputs the test information into the corresponding fields of the equipment test template through the first terminal and generates an engineering test report, and the first terminal sends and stores the engineering test report in the first server.

And the engineering test information query module is used for the operation maintenance personnel to acquire the engineering project information, the physical ID information and the material technical parameter information on the first server through the second terminal.

The construction personnel operate through the micro application on the first terminal, the first terminal and the first server form an electronic engineering file transfer platform, the second terminal and the second server form an operation maintenance information system, namely a PMS2.0 system, and the first terminal, the second terminal, the first server and the second server and corresponding communication connection technologies are not repeated in the prior art.

Example 2 description of use:

when the construction manager carries out the equipment test, the engineering project information and the real object ID information are recorded and stored in the first server.

The equipment supplier records and stores the technical parameter information and the physical ID information of the goods and materials in the first server.

The method comprises the steps that a constructor obtains an equipment test template from a first server through a first terminal and opens the equipment test template, the constructor selects a test engineering name from the equipment test template, the first terminal obtains information of a work breakdown structure WBS name, a real object ID and a material technical parameter corresponding to the engineering name from the first server according to the engineering name selected by the constructor, the first terminal fills the information of the engineering name, the work breakdown structure WBS name, the real object ID and the material technical parameter into corresponding fields of the equipment test template, and the constructor searches field equipment according to the information of the engineering project, the information of the real object ID and the material technical parameter and conducts test work. The construction personnel enter the test information into the corresponding field of the equipment test template through the first terminal and generate an engineering test report, and the first terminal sends and stores the engineering test report in the first server.

Constructors obtain the technical parameters of the materials from the first server through the first terminal, and the first terminal inputs the obtained technical parameters of the materials into the engineering test information table on the first terminal, so that the workload of the constructors is simplified, and the constructors do not need to input the technical parameters of the materials.

And the operation maintenance personnel acquire the engineering project information, the physical ID information and the material technical parameters on the first server through the second terminal, and search the field equipment according to the engineering project information, the physical ID information and the material technical parameters and perform test work.

And operation maintenance personnel search the field equipment and perform test work according to the real-time updated engineering project information, the real object ID information and the material technical parameters, so that the working efficiency is greatly improved.

Inventive concept of example 2:

the first terminal and the first server used by constructors, the second terminal and the second server used by operation maintenance personnel, the equipment test template module, the engineering test information collection module, the engineering test information query module and the like are used, so that the equipment information collection work efficiency is higher and the accuracy is higher during the construction period of the power grid system.

Example 3:

embodiment 3 is different from embodiment 2 in that it further includes a third terminal and a third server for construction management personnel, a fourth terminal and a fourth server for equipment suppliers, an engineering project information module and a material technical parameter module.

As shown in fig. 3, the present invention discloses a system for collecting engineering test data, which comprises five program modules, namely, a first terminal and a first server for constructors to use, a second terminal and a second server for operating maintenance personnel to use, a third terminal and a third server for construction managers to use, a fourth terminal and a fourth server for equipment suppliers to use, an equipment test template module, an engineering project information module, a material technical parameter module, an engineering test information collection module and an engineering test information query module, wherein the first terminal is wirelessly connected and bidirectionally communicated with the first server through a private power network, the second terminal is wirelessly connected and bidirectionally communicated with the second server through the private power network, the third terminal is wirelessly connected and bidirectionally communicated with the third server through the private power network, and the fourth terminal is wirelessly connected and bidirectionally communicated with the fourth server through the private power network, the second server is in wireless connection and bidirectional communication with the first server through a power private network, the third server is in wireless connection and bidirectional communication with the first server through the power private network, and the fourth server is in wireless connection and bidirectional communication with the first server through the power private network.

And the equipment test template module is used for a construction manager to input and store the equipment test template into the first server, the test template comprises an engineering name, a work breakdown structure WBS name, a real object ID, technical material parameters and fields of test information, and the technical material parameters comprise manufacturers, delivery dates, specification models and equipment types.

And the engineering project information module is used for sending the information of the engineering project and the real object ID corresponding to the engineering project through a third server by a construction manager and storing the information in the first server, wherein the engineering project information comprises information of an engineering name and a work breakdown structure WBS name.

And the material technical parameter module is used for the equipment supplier to send the material technical parameter information corresponding to the material ID and the material ID through the fourth server and store the information in the first server.

The engineering test information collection module is used for the constructor to obtain information of the equipment test template, the engineering name, the work breakdown structure WBS name, the physical ID and the material technical parameter from the first server through the first terminal, the first terminal fills the information of the engineering name, the work breakdown structure WBS name, the physical ID and the material technical parameter into corresponding fields of the equipment test template, the constructor inputs the test information into the corresponding fields of the equipment test template through the first terminal and generates an engineering test report, and the first terminal sends and stores the engineering test report in the first server.

And the engineering test information query module is used for the operation maintenance personnel to acquire the engineering project information, the physical ID information and the material technical parameter information on the first server through the second terminal.

The construction personnel form an electronic engineering file transfer platform through micro application operation on a first terminal, a second terminal and a second server form an operation maintenance information system, namely a PMS2.0 system, a third terminal and a third server form a service integration information system, namely an ERP system, equipment suppliers form a material technical parameter information system through micro application operation on a fourth terminal, and the fourth terminal and the fourth server form a material technical parameter information system.

Example 3 description of use:

when the construction manager carries out the equipment test, the engineering project information and the physical ID information are sent to the first server through the third terminal, and the first server receives and stores the engineering project information and the physical ID information sent by the third mobile terminal.

The equipment supplier sends the technical parameter information and the real object ID information of the materials to the first server through the fourth terminal, and the first server receives and stores the technical parameter information and the real object ID information of the materials sent by the fourth mobile terminal.

The method comprises the steps that a constructor obtains an equipment test template from a first server through a first terminal and opens the equipment test template, the constructor selects a test engineering name from the equipment test template, the first terminal obtains information of a work breakdown structure WBS name, a real object ID and a material technical parameter corresponding to the engineering name from the first server according to the engineering name selected by the constructor, the first terminal fills the information of the engineering name, the work breakdown structure WBS name, the real object ID and the material technical parameter into corresponding fields of the equipment test template, and the constructor searches field equipment according to the information of the engineering project, the information of the real object ID and the material technical parameter and conducts test work. The construction personnel enter the test information into the corresponding field of the equipment test template through the first terminal and generate an engineering test report, and the first terminal sends and stores the engineering test report in the first server.

Constructors obtain the technical parameters of the materials from the first server through the first terminal, and the first terminal inputs the obtained technical parameters of the materials into the engineering test information table on the first terminal, so that the workload of the constructors is simplified, and the constructors do not need to input the technical parameters of the materials.

And the operation maintenance personnel acquire the engineering project information, the physical ID information and the material technical parameters on the first server through the second terminal, and search the field equipment according to the engineering project information, the physical ID information and the material technical parameters and perform test work.

And operation maintenance personnel search the field equipment and perform test work according to the real-time updated engineering project information, the real object ID information and the material technical parameters, so that the working efficiency is greatly improved.

Example 4:

as shown in fig. 4, the invention discloses a method for collecting engineering test data, which is based on the system of embodiment 1, and comprises the following steps:

test template of S1 equipment

The construction management personnel input and store the equipment test template into the first server, the test template comprises an engineering name, a Work Breakdown Structure (WBS) name, a real object ID, technical material parameters and fields of test information, and the technical material parameters comprise a manufacturer, a delivery date, specification models and equipment types.

S4 engineering test information collection

The construction method comprises the steps that constructors obtain information of an equipment test template, an engineering name, a work breakdown structure WBS name, a physical ID and a material technical parameter from a first server through a first terminal, the first terminal fills the information of the engineering name, the work breakdown structure WBS name, the physical ID and the material technical parameter into corresponding fields of the equipment test template, the constructors enter the test information into the corresponding fields of the equipment test template through the first terminal and generate an engineering test report, and the first terminal sends and stores the engineering test report in the first server.

Example 5:

as shown in fig. 5, the invention discloses a method for collecting engineering test data, which is based on the system of embodiment 2 and comprises the following steps:

test template of S1 equipment

The construction management personnel input and store the equipment test template into the first server, the test template comprises an engineering name, a Work Breakdown Structure (WBS) name, a real object ID, technical material parameters and fields of test information, and the technical material parameters comprise a manufacturer, a delivery date, specification models and equipment types.

S4 engineering test information collection

The construction method comprises the steps that constructors obtain information of an equipment test template, an engineering name, a work breakdown structure WBS name, a physical ID and a material technical parameter from a first server through a first terminal, the first terminal fills the information of the engineering name, the work breakdown structure WBS name, the physical ID and the material technical parameter into corresponding fields of the equipment test template, the constructors enter the test information into the corresponding fields of the equipment test template through the first terminal and generate an engineering test report, and the first terminal sends and stores the engineering test report in the first server.

S5 engineering test information query

And the operation maintenance personnel acquire the engineering project information, the physical ID information and the material technical parameter information on the first server through the second terminal.

Example 6:

as shown in fig. 6, the invention discloses a method for collecting engineering test data, which is based on the system of embodiment 3, and comprises the following steps:

test template of S1 equipment

The construction management personnel input and store the equipment test template into the first server, the test template comprises an engineering name, a Work Breakdown Structure (WBS) name, a real object ID, technical material parameters and fields of test information, and the technical material parameters comprise a manufacturer, a delivery date, specification models and equipment types.

S2 engineering project information

And the construction manager sends the information of the project and the real object ID corresponding to the project through a third server and stores the information in the first server, wherein the project information comprises information of a project name and a work breakdown structure WBS name.

S3 Material technical parameters

And the equipment supplier sends the physical ID and the information of the material technical parameters corresponding to the physical ID through the fourth server and stores the information in the first server.

S4 engineering test information collection

The construction method comprises the steps that constructors obtain information of an equipment test template, an engineering name, a work breakdown structure WBS name, a physical ID and a material technical parameter from a first server through a first terminal, the first terminal fills the information of the engineering name, the work breakdown structure WBS name, the physical ID and the material technical parameter into corresponding fields of the equipment test template, the constructors enter the test information into the corresponding fields of the equipment test template through the first terminal and generate an engineering test report, and the first terminal sends and stores the engineering test report in the first server.

S5 engineering test information query

And the operation maintenance personnel acquire the engineering project information, the physical ID information and the material technical parameter information on the first server through the second terminal.

After the application runs secretly for a period of time, the feedback of field technicians has the advantages that:

the method provides engineering and equipment reference information for constructors, simplifies the workload of front-line workers and improves the working efficiency.

Claims (10)

1. A system for engineering test data collection, characterized by: the system comprises a first terminal and a first server used by construction personnel, an equipment test template module and an engineering test information collection module, wherein the first terminal is connected with and communicated with the first server, the first server stores information comprising engineering projects, material IDs (identities) and material technical parameters, and the equipment test template module is used for a construction manager to record an equipment test template into the first server; the engineering test information collection module is used for the constructor to obtain information of the equipment test template, the engineering project, the material object ID and the material technical parameters from the first server through the first terminal, the constructor inputs corresponding test information into the first terminal according to the information of the engineering project, the material object ID and the material technical parameters and generates an engineering test report, and the first terminal sends the engineering test report to the first server.

2. The system for engineering test data collection of claim 1, wherein: in the equipment test template module, a test template comprises fields of an engineering name, a work breakdown structure WBS name, a material object ID, material technical parameters and test information, wherein the material technical parameters comprise a manufacturer, a delivery date, a specification model and an equipment type; in the engineering test information collection module, the engineering project information includes information of an engineering name and a work breakdown structure WBS name.

3. The system for engineering test data collection of claim 1, wherein: the system comprises a first server, a second server, an engineering test information query module and a control module, and further comprises a second terminal, the second server and the engineering test information query module, wherein the second terminal is used for being used by operation and maintenance personnel, the second terminal is connected with and communicates with the second server, the second server is connected with and communicates with the first server, and the engineering test information query module is used for the operation and maintenance personnel to acquire information of engineering projects, physical IDs and material technical parameters on the first server through the second terminal.

4. The system for engineering test data collection of claim 1, wherein: the system comprises a first server, a second server and an engineering project information module, and is characterized by further comprising a third terminal and a third server used by construction management personnel, wherein the third terminal is connected with and communicates with the third server, the third server is connected with and communicates with the first server, and the engineering project information module is used by the construction management personnel to send and store information of engineering projects and physical IDs corresponding to the engineering projects in the first server through the third terminal.

5. The system for engineering test data collection of claim 1, wherein: the system comprises a first server, a second server and a material technical parameter module, wherein the first server is used for storing material technical parameters corresponding to the physical ID and the physical ID, the second server is used for storing the material technical parameters corresponding to the physical ID and the physical ID, and the material technical parameter module is used for enabling the equipment supplier to transmit the material technical parameters corresponding to the physical ID and the physical ID to the first server through the second server and storing the material technical parameters in the first server.

6. A method for engineering test data collection, characterized by: the method comprises the following steps that S1 equipment test templates are recorded into a first server by construction management personnel; s4 engineering test information is collected, construction personnel obtain information of the equipment test template, the engineering project, the physical ID and the material technical parameter from the first server through the first terminal, the construction personnel input corresponding test information into the first terminal according to the information of the engineering project, the physical ID and the material technical parameter to generate an engineering test report, and the first terminal sends the engineering test report to the first server.

7. The method for engineering test data collection according to claim 6, wherein: and a step S5 of inquiring engineering test information after the step S4, wherein the operation maintenance personnel acquires information of engineering projects, physical IDs and material technical parameters on the first server through the second terminal.

8. The method for engineering test data collection according to claim 6, wherein: and a step of S2 of engineering project information between the steps S1 and S4, wherein the construction manager transmits the information of the engineering project and the physical ID corresponding to the engineering project through a third terminal to the first server and stores the information in the first server.

9. The method for engineering test data collection according to claim 6, wherein: and a step of S3 material technical parameters between the steps S1 and S4, wherein the equipment supplier sends the information of the material technical parameters corresponding to the physical ID and the physical ID through a fourth server and stores the information in the first server.

10. The method for engineering test data collection according to claim 8, wherein: and a step of S3 material technical parameters between the steps S2 and S4, wherein the equipment supplier sends the information of the material technical parameters corresponding to the physical ID and the physical ID through a fourth server and stores the information in the first server.

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