CN112986725B - Intelligent control terminal, testing method and electronic equipment for testing electric power secondary equipment - Google Patents

Abstract

The application provides an intelligent control terminal system, a testing method and electronic equipment for testing a complete machine of power secondary equipment. The intelligent control terminal comprises an operation data management layer, a local communication data processing layer, a man-machine interaction control layer and a cloud communication data processing layer, wherein the operation data management layer receives different commands and processes a test flow correctly; the local communication data processing layer comprises serial communication and network communication, and is used for managing the communication of the electric power secondary equipment, the whole machine tester and the management device, so that the IP global setting, the intelligent program downloading, the test flow control and the test report management are realized; the man-machine interaction layer realizes automatic generation of a man-machine interaction interface and automatic association of control signals according to the operation parameters; the cloud communication data processing layer is used for carrying out data communication with the enterprise cloud based on a communication protocol, so that data processing is realized. The intelligent control terminal for testing the whole machine realizes intelligent management on the whole machine testing of a plurality of testers, and improves the testing efficiency.

Description

Intelligent control terminal, testing method and electronic equipment for testing electric power secondary equipment

Technical Field

The application relates to the technical field of relay protection of power systems, in particular to an intelligent control terminal, a testing method and electronic equipment for complete machine testing of power secondary equipment.

Background

In recent years, with the high-speed development of the construction of the power grid in China, the demand of the electric power secondary equipment is rapidly increased, and the defects of the manual testing or the semi-automatic testing method of the electric power secondary protection equipment are highlighted:

1. the test efficiency is low;

2. the labor cost is high;

3. the automation test level is low.

The production test technology of the electric power secondary equipment manufacturing enterprises is also forced to be changed continuously, and technical innovation is made. The patent with the patent number ZL201610122591.9 discloses a complete machine intelligent test method and a complete machine intelligent test system for a power system protection device, which are used for discussing complete machine test of low-voltage power secondary equipment, and realizing automatic wiring and automatic test through auxiliary tools; the patent number ZL201710130479.4 is a complete machine online intelligent test method and system of the electric power secondary equipment, which discusses complete machine test of the low-voltage electric power secondary equipment, realizes complete machine online intelligent test of the electric power secondary equipment through a robot, a transmission belt and an intelligent test station, and the test technology is continuously improved to ensure that a small-size protection measurement and control device of the electric power secondary equipment is very convenient to test, time and labor are saved, but for large-size electric power secondary equipment, such as 8U bus differential protection, 4U line protection, 4U measurement and control device and the like, the test method still needs to be improved.

The above information disclosed in the background section is only for enhancement of understanding of the background of the application and therefore it may contain information that does not form the prior art that is already known to a person of ordinary skill in the art.

Disclosure of Invention

Based on this, the application provides an intelligent control terminal, a testing method and electronic equipment for testing a complete machine of electric power secondary equipment, which can realize rapid automatic testing of the large-scale electric power secondary equipment, avoid complicated testing steps, realize that a voltage grade can be automatically selected by code scanning, automatically power on, automatically match device models and automatically perform complete machine testing. The scheme effectively reduces the wiring complexity of the whole machine test line, and realizes the whole improvement of the automatic test of the whole machine and the test efficiency.

Features and advantages of the present application will become apparent from the following detailed description, or may be learned by the practice of the application.

According to an aspect of the present application, an intelligent control terminal system for testing a complete machine of an electric power secondary device is provided, including: the running data management layer is used for managing communication data of the electric power secondary equipment, managing model data controlled by the control management device, managing bar code scanning data, receiving feedback data of control commands of at least one control management device and processing the whole machine test flow; the local communication data processing layer is used for communicating with the electric power secondary equipment, the complete machine tester and the control management device, completing intelligent setting of the IP address of the electric power secondary equipment, intelligent downloading of programs, control of a test flow and management of a test report; the man-machine interaction control layer is used for realizing automatic association between generation of a man-machine interaction interface and control signals according to operation parameters, and controlling the control management device to complete power-on triggering of the secondary power equipment, cloud query triggering of a bar code enterprise, IP address setting triggering, whether to download the latest program triggering, complete machine testing flow triggering and reporting whether to upload the cloud triggering; the cloud communication data processing layer is used for carrying out data communication with the cloud of an enterprise based on a communication protocol, completing bar code data conversion of the device to be tested, obtaining detailed information of the device to be tested, and uploading and downloading test reports and order data.

According to some embodiments, the operational data management layer comprises: the electric power secondary equipment model data module is used for processing reading, storing and displaying electric power secondary equipment data information; the power secondary equipment testing capability mapping module is used for associating the bar code conversion name of the power secondary equipment with a menu of the whole machine tester, and configuring, storing and displaying the voltage class of the power secondary equipment; the management device controls the matrix data management module and is used for managing the data display and setting of all the card-opening boards of one or more control management devices; the test work number management module is used for managing work numbers of all test engineers and work number data of current test tasks, transmitting the data to the whole machine tester through the local communication data processing layer, recording the data in a test report, and associating the test engineers with a tested device; and the test equipment management module is used for adding, deleting and storing communication data of the bar code scanner, at least 1 control management device, at least 1 complete machine tester and at least 1 electric secondary equipment.

According to some embodiments, a human-machine interaction control layer comprises: the bar code scanner management module is used for controlling the triggering of the bar code scanner and reading data; the whole machine tester control module is used for controlling and managing the triggering of the whole machine tester; the management device control module is used for managing and controlling the management device and controlling the triggering of power-off and power-on of the electric power secondary equipment and different voltage grades of each plug-in unit thereof; and the whole machine test flow control and display module is used for establishing a system window to display test flow data of the whole machine tester.

According to some embodiments, a local communication data processing layer comprises: the control management device communication module is used for enabling the intelligent control terminal system to communicate with one or more control management devices, and is used for receiving the issued control data and the feedback data so as to meet the power-on and power-off requirements of the secondary electric equipment; the power secondary equipment network communication module is used for enabling the intelligent control terminal system to communicate with one or more power secondary equipment, acquiring a program version of the power secondary equipment, monitoring the state of the power secondary equipment and determining whether to download the latest program; the serial port communication module of the electric power secondary equipment device is used for enabling one or more electric power secondary equipment to communicate with each other, and setting IP address, subnet mask and MAC address data; and the bar code scanner communication module is used for receiving the scanned bar code data and transmitting the scanned bar code data to the cloud communication data processing layer to acquire the detailed information of the device to be tested.

According to some embodiments, the test equipment management module configures the IP address and the control contact of the control management device, so that a plurality of complete machine testers join in the complete machine test intelligent control terminal system of the electric secondary equipment, and the automatic test scale of the intelligent control terminal system is enlarged.

According to another aspect of the present application, a test method for testing an intelligent control terminal system for a complete machine of an electric power secondary device is provided, including: setting parameters of a test equipment management module in an operation data management layer; forming a management interface based on the operation data; scanning a bar code of a device to be tested, acquiring detailed information and an order number of the device to be tested through a cloud communication data processing layer, and transferring initialization related data to a complete machine tester through a local communication data processing layer; the control management device is controlled by the local communication data processing layer, so that the electric power secondary equipment is automatically electrified; acquiring a program version number of the device to be tested through the network communication module of the electric secondary equipment device, acquiring program related information of the device to be tested through the cloud communication data processing layer, and judging whether the program needs to be updated or not; when the program is judged to need to be updated, after the program is acquired through the cloud end communication data processing layer and is downloaded to the electric power secondary equipment, judging whether the device to be tested is in an operating state or not; when the device to be tested is judged to be in the running state, triggering the whole machine tester to test; and when the device to be tested is judged not to be in the running state, entering into a manual mode for processing.

According to some embodiments, after the success of the test is confirmed, the power secondary equipment is powered off, a test report is formed, and the test report is uploaded to the enterprise cloud; and when the test is confirmed to be unsuccessful, entering into manual mode processing.

According to some embodiments, when it is determined that the program does not need to be updated, it directly enters to determine whether the device under test is in an operating state.

According to some embodiments, determining whether a device under test is in an operational state specifically includes: the whole machine tester searches a testing capability database, and if the feedback of the testing capability database is met, the whole machine tester is triggered to test, wherein the testing of a communication channel, an opening contact, an analog sampling channel and an opening contact of a device to be tested is carried out; and if the feedback of the test capability database is not satisfied, entering into manual mode processing.

According to an aspect of the present application, there is provided an electronic device including: one or more processors; a storage means for storing one or more programs; the one or more programs, when executed by the one or more processors, cause the one or more processors to implement the methods as described above.

According to the technical scheme of the application, the quick and automatic test of the large-scale electric secondary equipment can be realized, the complicated test steps are avoided, the voltage level can be automatically selected by realizing code scanning, the automatic power-on is realized, the model of the matching device is automatically carried out, and the complete machine test is automatically carried out. The technical scheme of the application effectively reduces the wiring complexity of the whole machine test line, and realizes the whole improvement of the automatic test and the test efficiency of the whole machine.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present application, and that other drawings can be obtained according to these drawings by a person having ordinary skill in the art without departing from the scope of the protection claimed in the present application.

FIG. 1 illustrates a block diagram of an intelligent control terminal system for power secondary device complete machine testing, according to an example embodiment;

FIG. 2 illustrates a block diagram of a local communication data processing layer in accordance with an exemplary embodiment;

FIG. 3 illustrates a block diagram of a human-machine interaction control layer in accordance with an exemplary embodiment;

FIG. 4 illustrates a block diagram of a run data management layer according to an example embodiment;

FIG. 5 illustrates a block diagram of device management module control in accordance with an exemplary embodiment;

FIG. 6 illustrates a test flow diagram according to an example embodiment;

fig. 7 shows a block diagram of an electronic device of a testing apparatus according to an exemplary embodiment.

Detailed Description

Example embodiments will now be described more fully with reference to the accompanying drawings. However, the exemplary embodiments can be embodied in many forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the example embodiments to those skilled in the art. The same reference numerals in the drawings denote the same or similar parts, and thus a repetitive description thereof will be omitted.

The described features, structures, or characteristics may be combined in any suitable manner in one or more embodiments. In the following description, numerous specific details are provided to give a thorough understanding of embodiments of the disclosure. One skilled in the relevant art will recognize, however, that the disclosed aspects may be practiced without one or more of the specific details, or with other methods, components, materials, apparatus, etc. In such instances, well-known structures, methods, devices, implementation steps, materials, or operations are not shown or described in detail.

Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those listed steps or elements but may include other steps or elements not listed or inherent to such process, method, article, or apparatus.

The terms first, second and the like in the description and in the claims of the present application and in the above-described figures, are used for distinguishing between different objects and not for describing a particular sequential order. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion.

Fig. 1 illustrates a block diagram of an intelligent control terminal system for power secondary equipment complete machine testing according to an exemplary embodiment.

As shown in fig. 1, the intelligent control terminal system for testing the whole electric power secondary equipment comprises: the system comprises an operation data management layer 400, a man-machine interaction control layer 300, a local communication data processing layer 200 and a cloud communication data processing layer 100.

The operation data management layer 400 is used for communication data management of the electric power secondary equipment, model data management of the electric power secondary equipment, control model data management of the control management device, bar code scanning data management, receiving feedback data of control commands of at least one control management device and processing the whole machine test flow.

The local communication data processing layer 200 is used for communicating with the electric power secondary equipment, the complete machine tester and the control management device, completing the intelligent setting of the IP address of the electric power secondary equipment, the intelligent downloading of programs, the control of test flow and the management of test reports.

The man-machine interaction control layer 300 is configured to implement automatic association between generation of a man-machine interaction interface and a control signal according to an operation parameter, and control the management device to complete power-on triggering of the secondary power equipment, cloud query triggering of a device barcode enterprise, setting triggering of an IP address, triggering of whether to download a latest program, triggering of a complete machine test procedure, and triggering of whether to upload a report to the cloud.

The cloud communication data processing layer 100 is used for performing data communication with the cloud of an enterprise based on a communication protocol, completing bar code data conversion of a device to be tested, obtaining detailed information of the device to be tested, and uploading and downloading test reports and order data.

According to an embodiment, a hardware testing device matched with a complete machine testing intelligent control terminal system of electric power secondary equipment comprises: a power secondary device 4503, a complete machine tester 4502, a control management device 4501, and a barcode scanner 4504 (see fig. 5).

The power secondary device 4503 is used for realizing testing according to a flow under the control of the intelligent control terminal.

The complete machine tester 4502 is used for implementing complete machine ordered intelligent test of all electric power secondary equipment under the management of the local communication data processing layer 200 and the man-machine interaction control layer 300, and comprises electric power secondary equipment communication channel test, switching-in contact test, analog sampling channel test and switching-out contact test.

The control management device 4501 is configured to implement intelligent identification, selection, and voltage control output of N power secondary device voltage levels under the management of the local communication data processing layer 200 and the man-machine interaction control layer 300, specifically, for example, a voltage level of 1 and 2 of the board card, and … … of the N voltage levels of the board card.

The barcode scanner 4504 is used for a test engineer to scan a barcode of a device, and the barcode data is converted into detailed data of the device to be tested and order data of the device to be tested under the management of the local communication data processing layer 200 and the cloud communication data processing layer 100.

Alternatively, the power secondary device 4503, the complete machine tester 4502, and the control management device 4501 may be one or more in the system according to the requirements.

According to the embodiment, in the mass production test process of the secondary electric power equipment, the intelligent control terminal system is led in a modularized mode, so that the efficiency of the current production test means is low, the process is complex, and the efficiency is effectively improved and simplified.

Fig. 2 illustrates a block diagram of a local communication data processing layer according to an example embodiment.

As shown in fig. 2, the local communication data processing layer 200 includes the following functional modules: the control management device communication module 210, the power secondary equipment network communication module 220, the power secondary equipment serial port communication module 230 and the bar code scanner communication module 240.

The control management device communication module 210 is configured to enable the intelligent control terminal system to communicate with one or more control management devices 4501, and is configured to receive the issued control data and the feedback data, so as to meet the power-on and power-off requirements of the secondary power device 4502.

The power secondary device network communication module 220 is configured to enable the intelligent control terminal system to communicate with one or more power secondary devices 4502, obtain a program version of the power secondary device, monitor a status of the power secondary device, and determine whether to download the latest program.

The serial communication module 230 is configured to communicate one or more power secondary devices 4502 with each other, and set IP address, subnet mask, and MAC address data.

The barcode scanner communication module 240 is configured to receive scanned barcode data, and transmit the scanned barcode data to the cloud communication data processing layer 100, obtain detailed information of a device to be tested, and implement association between the device to be tested and an order number through a test report.

According to an embodiment, the management device communication module 210 establishes a specified number of communication threads of the control management device 4501 according to the data of the test apparatus management module 450 (shown in fig. 4), and realizes data communication between the control terminal and the control management device 4501; the network communication module 220 of the electric power secondary equipment and the serial communication module 230 of the electric power secondary equipment establish a specified number of communication threads of the electric power secondary equipment 4503 according to the data (shown in fig. 4) of the test equipment management module 450, and realize the functions of data model reading, state monitoring and the like.

Fig. 3 illustrates a block diagram of a human-machine interaction control layer according to an example embodiment.

As shown in fig. 3, the man-machine interaction control layer 300 includes the following functional modules: the bar code scanner control module 310, the management device control module 320, the complete machine tester control module 330, the complete machine test flow control and display module 340.

The barcode scanner management module 310 is used to control the triggering of the barcode scanner 4504 and the reading of data.

The complete machine tester control module 330 is used for controlling and managing the triggering of the complete machine tester 4502. Specifically, N complete machine tester keyboard events are implemented: the cursor up key and the cursor down key, the determining key, the cancel key and the triggering control of the system restarting key.

The management device control module 320 is used for managing and controlling the management device 4501, and controlling the triggering of the power-off and the power-on of the power secondary device 4502 and the plug-ins with different voltage levels.

The complete machine testing flow control and display module 340 is used for establishing a system window to display the testing flow data of the complete machine tester 4502. Specifically, a WINDOWS window is established to display various test flow data of the whole tester, and the test content and the test progress of the whole tester in the test cabinet are presented in the window.

FIG. 4 illustrates a block diagram of a runtime data management layer, according to an example embodiment.

As shown in FIG. 4, the operational data management layer 100 includes the following functional modules, a model data module 410, a test capability mapping module 420, a matrix data management module 430, a test job number management module 440, and a test equipment management module 450.

The model data module 410 is used for processing the reading, storing and displaying of the data information of the power secondary equipment.

The testing capability mapping module 420 is used for associating the barcode conversion name of the secondary power equipment with the menu of the complete machine tester, and configuring, storing and displaying the voltage class of the secondary power equipment.

The matrix data management module 430 is used for managing the data display and setting of all the outgoing boards of the one or more control management devices 4501. Specifically, the data selection of the voltage of the device to be tested or the voltage class of the board card is completed, and the voltage class is divided into 220V, 110V, 48V and 24V.

The test job number management module 440 is used for managing the job numbers of all test engineers and the current test job number data, transferring the data to the complete machine tester 4502 through the local communication data processing layer 200, and recording the data in a test report, and associating the test engineers with the device under test.

The test equipment management module 450 is used for adding, deleting and storing communication data of not less than 1 control management device 4501, not less than 1 complete machine tester 4502 and barcode scanner 4504.

Specifically, the model data module 410 mainly includes IEC103 model data of the electric power secondary device, where the data model has an information name, an information group number, an information entry number, a data type and a numerical value, so as to meet the requirement of the intelligent control terminal system for testing the electric power secondary device on automatic modification of the electric power secondary device, and assist in completing automatic detection of the electric power secondary device.

Specifically, according to an embodiment, the power secondary device testing capability mapping module 420 is that the device barcode queries the device information obtained through the cloud communication data processing layer, and the device model is in data association with the testing menu of the complete machine tester 4502, so as to realize automatic call; meanwhile, the device comprises voltage class data of the device, and the device is powered on to realize the automatic power-on function of different voltage classes.

Fig. 5 illustrates a block diagram of device management module control according to an example embodiment.

As shown in fig. 5, the test device management module 450 mainly manages data of the following devices: control management devices 4501, complete machine testers 4502, secondary electric power equipment 4503, and bar code scanners 4504. The man-machine interaction control layer 300 forms a test control man-machine interaction interface according to the data of the test equipment management module 450, and realizes IP address setting, data model setting and test flow control. At least one of each of the above types of devices participates.

According to an embodiment, the test equipment management module 450 configures an IP address and a control contact of the control management device, so that a plurality of complete machine testers join in a complete machine test intelligent control terminal system of the secondary power equipment, and the automatic test scale of the intelligent control terminal system is enlarged.

Fig. 6 shows a schematic diagram of a test flow according to an exemplary embodiment.

As shown in fig. 6, according to an embodiment, in S601, the test equipment management module parameters in the operation data management layer are set, specifically, the test equipment management module 450 reads the operation data of the device under test, including the IP address and port number of the complete machine tester participating in the operation, the IP address and port number of the management device, the control contact data of the management device, and the complete machine mapping data of the device test.

In S603, the man-machine interaction control layer 300 forms a relay protection complete machine tester control management interface of the complete machine test flow control and display module 340 based on the operation data. Specifically, the method comprises the steps of forming a management device and a scanner control management interface.

In S605, the barcode of the device under test is scanned by the scanner 4504, and the device model, device category, device barcode, order number, and test engineer number data are transferred to the complete machine tester 4502 by the barcode scanner communication module 240 of the local communication data processing layer 200.

According to an embodiment, the control management device 4501 controls the data to be a control matrix composed of a board slot number and a control contact channel number, the data associated with the control matrix is a voltage class data string, and the format of the data is as follows: DEV+ device number, DC+ voltage class, or DEV+ device number, KR+ device is turned on to board number, DC+ {220/110/48/24} V+ or DEV+ device number, KR+ device is turned on to board number, DC+ {220/110/48/24} V-.

In S607, the detailed information and the order number of the device to be tested are obtained through the cloud communication layer 100.

In S609, the management device 4501 is controlled by the local communication data processing layer 200, so that the power secondary device is automatically powered on.

In S611, the program version number of the device under test and the program related information are obtained through the network communication module 220 of the power secondary device, and whether the program needs to be updated is determined; through the serial port communication module 230 of the electric power secondary equipment, the IP address of the electric power secondary equipment to be tested is globally set, so that IP address conflict is avoided when a plurality of electric power secondary equipment simultaneously perform complete machine test; if the power secondary device 4503 needs to download the program, the process proceeds to S613, and the program is acquired through the cloud communication data processing layer 100 and downloaded to the power secondary device 4503, so as to automatically update the device program, and the process proceeds to S615.

According to an embodiment, when it is determined that the program is not to be updated, S613 is skipped to directly enter S615.

In S615, when the device to be tested is determined to be in an operating state, entering S617 to trigger a complete machine test flow; when it is determined that the device under test is not in an operating state, the process proceeds to S620 to remind the test engineer to perform the process. The judging method comprises the following steps: the whole machine tester 4502 searches a testing capability database in the operation data management layer 300, and if the feedback of the testing capability database is met, the whole machine tester 4502 is triggered to test, including testing a communication channel, an opening and closing point, an analog sampling channel and an opening and closing point of the device; if the test capability database feedback is not satisfied, the process proceeds to S620 where the feedback is sent to the test engineer for processing.

After the test at S617 is finished, judging whether the test is successful at S619, after the test is confirmed to be successful, entering S621 to power off the power secondary equipment, forming a test report at S622 and uploading the test report to the cloud of an enterprise, and completing the whole test; and when the test is confirmed to be unsuccessful, entering S620 a manual mode process to pop up an interface and an audio alert for the test engineer.

Fig. 7 shows a block diagram of an electronic device of a testing apparatus according to an exemplary embodiment.

As shown in fig. 7, the electronic device 700 is embodied in the form of a general purpose computing device. Components of electronic device 700 may include, but are not limited to: at least one processing unit 710, at least one memory unit 720, a bus 730 connecting the different system components (including the memory unit 720 and the processing unit 710), a display unit 740, and the like.

Wherein the storage unit stores program code that is executable by the processing unit 710 such that the processing unit 710 performs the methods according to various exemplary embodiments of the present application described herein.

Bus 730 may be a bus representing one or more of several types of bus structures including a memory unit bus or memory unit controller, a peripheral bus, an accelerated graphics port, a processing unit, or a local bus using any of a variety of bus architectures.

The electronic device 700 may also communicate with one or more external devices 800 (e.g., keyboard, pointing device, bluetooth device, etc.), one or more devices that enable a user to interact with the electronic device 700, and/or any device (e.g., router, modem, etc.) that enables the electronic device 700 to communicate with one or more other computing devices. Such communication may occur through an input/output (I/O) interface 750. Also, the electronic device 700 may communicate with one or more networks such as a Local Area Network (LAN), a Wide Area Network (WAN) and/or a public network, such as the Internet, through a network adapter 760. Network adapter 760 may communicate with other modules of electronic device 700 via bus 730. It should be appreciated that although not shown, other hardware and/or software modules may be used in connection with electronic device 700, including, but not limited to: microcode, device drivers, redundant processing units, external disk drive arrays, RAID systems, tape drives, data backup storage systems, and the like.

According to the embodiment of the application, through the operation data management layer, the local communication data processing layer, the man-machine interaction control layer and the cloud communication data processing layer, the operation data management layer is the basis of communication between the intelligent control terminal and the whole machine tester, the electric power secondary equipment, the management device and the like, and accordingly different commands are received and test flows are correctly processed; the local communication data processing layer comprises serial communication and network communication, manages electric power secondary equipment, a complete machine tester and a management device to communicate, realizes IP global setting, program intelligent downloading, test flow control and test report management, and realizes automatic generation of a man-machine interaction interface and automatic association of control signals according to operation parameters. The intelligent control terminal for testing the whole machine realizes intelligent management on the whole machine testing of a plurality of testers, and improves the testing efficiency.

The foregoing has outlined rather broadly the more detailed description of embodiments of the present application, wherein specific examples have been provided herein to illustrate the principles and embodiments of the present application, and wherein the above examples are provided to assist in the understanding of the methods and concepts of the present application. Meanwhile, based on the ideas of the present application, those skilled in the art can make changes or modifications on the specific embodiments and application scope of the present application, which belong to the scope of the protection of the present application. In view of the foregoing, this description should not be construed as limiting the application.

Claims (10)

1. An intelligent control terminal system for testing a complete machine of electric power secondary equipment, which is characterized by comprising:

the running data management layer is used for managing communication data of the electric power secondary equipment, managing model data of the electric power secondary equipment, managing control model data of the control management device, managing bar code scanning data, receiving control command feedback data of at least one control management device and processing the whole machine test flow;

the local communication data processing layer is used for communicating with the electric power secondary equipment, the complete machine tester and the control management device to finish intelligent setting of the IP address of the electric power secondary equipment, intelligent downloading of programs, control of a test flow and/or management of a test report;

the man-machine interaction control layer is used for realizing automatic association of generation of a man-machine interaction interface and a control signal according to operation parameters and controlling the control management device to complete power-on triggering of the power secondary equipment, cloud query triggering of a device bar code enterprise, IP address setting triggering, whether to download the latest program triggering, complete machine test flow triggering and/or whether to upload a report to the cloud triggering;

the cloud communication data processing layer is used for carrying out data communication with the enterprise cloud based on a communication protocol, completing bar code data conversion of a device to be tested, acquiring detailed information of the device to be tested, and uploading and downloading the test report and order data;

wherein the operation data management layer comprises:

the electric power secondary equipment model data module is used for executing reading, storing and displaying of the electric power secondary equipment data information;

the power secondary equipment testing capability mapping module is used for associating a power secondary equipment bar code conversion name with a complete machine tester menu to complete configuration, storage and display of the power secondary equipment voltage level;

the management device controls the matrix data management module, is used for managing the data display and setting of all the card of the said control management device;

the test work number management module is used for managing work numbers of all test engineers and work number data of current test tasks, transmitting the data to the whole machine tester through the local communication data processing layer, and recording the data in the test report to associate the test engineers with the tested device;

and the test equipment management module is used for adding, deleting and storing communication data comprising a bar code scanner, not less than 1 control management device, not less than 1 complete machine tester and not less than 1 electric power secondary equipment.

2. The intelligent control terminal system according to claim 1, wherein the man-machine interaction control layer comprises:

the bar code scanner management module is used for controlling the triggering and the data reading of the bar code scanner;

the complete machine tester control module is used for controlling and managing the triggering of the complete machine tester;

the management device control module is used for managing the control management device and controlling the power-off and power-on trigger of the electric power secondary equipment and various plug-ins thereof with different voltage levels;

and the whole machine test flow control and display module is used for establishing a system window to display test flow data of the whole machine tester.

3. The intelligent control terminal system of claim 1, wherein the local communication data processing layer comprises:

the control management device communication module is used for enabling the intelligent control terminal system to communicate with one or more control management devices, and is used for receiving the issued control data and the feedback data so as to meet the power-on and power-off requirements of the electric secondary equipment;

the power secondary equipment network communication module is used for enabling the intelligent control terminal system to communicate with one or more power secondary equipment, acquiring a program version of the power secondary equipment, monitoring the state of the power secondary equipment and determining whether to download the latest program;

the serial port communication module of the electric power secondary equipment device is used for enabling one or more electric power secondary equipment to communicate with each other and setting IP addresses, subnet masks and MAC address data;

and the bar code scanner communication module is used for receiving the scanned bar code data and transmitting the scanned bar code data to the cloud communication data processing layer to acquire the detailed information of the device to be tested.

4. The intelligent control terminal system according to claim 1, wherein the test equipment management module configures the IP address and the control contact of the control management device to make the plurality of complete machine testers join the complete machine test intelligent control terminal system of the secondary electric power equipment, so that the automatic test scale of the intelligent control terminal system is enlarged.

5. A test method for a complete machine test intelligent control terminal system of electric power secondary equipment, which is characterized in that the complete machine test intelligent control terminal system of electric power secondary equipment is the intelligent control terminal system of any one of claims 1-4, and at least comprises an operation data management layer, a local communication data processing layer and a cloud communication data processing layer, and the test method comprises the following steps:

setting parameters of a test equipment management module in the operation data management layer;

forming a management interface based on the operation data;

scanning a bar code of a device to be tested, and acquiring detailed information and an order number of the device to be tested through the cloud communication data processing layer;

transferring the device model, device category, device bar code, order number and/or test engineer work number data to a complete machine tester through the local communication data processing layer;

and controlling the management device through the local communication data processing layer to enable the electric power secondary equipment to be automatically electrified.

6. The test method according to claim 5, wherein after the power secondary device is automatically powered on, the program version number of the device to be tested is obtained through the power secondary device network communication module, the program related information of the device to be tested is obtained through the cloud communication data processing layer, and whether the program needs to be updated is determined;

when the program is judged to need to be updated, judging whether the device to be tested is in an operating state or not after the program is acquired through the cloud communication data processing layer and downloaded to the electric power secondary equipment;

when the device to be tested is judged to be in an operating state, triggering the whole machine tester to test; the method comprises the steps of,

and when the device to be tested is judged not to be in the running state, entering into manual mode processing.

7. The test method according to claim 6, wherein,

after the success of the test is confirmed, the power secondary equipment is powered off, a test report is formed, and the test report is uploaded to an enterprise cloud; the method comprises the steps of,

when the test is confirmed to be unsuccessful, the manual mode processing is entered.

8. The test method of claim 6, wherein when it is determined that the program does not need to be updated, directly entering into determining whether the device under test is in an operating state.

9. The method according to claim 6, wherein the determining whether the device under test is in an operating state comprises:

the whole machine tester searches a testing capability database, and if the feedback of the testing capability database is met, the whole machine tester is triggered to test, wherein the testing of a communication channel, an opening contact, an analog sampling channel and an opening contact of the device to be tested is carried out; the method comprises the steps of,

and if the feedback of the test capability database is not satisfied, entering a manual mode processing.

10. An electronic device, comprising:

one or more processors;

a storage means for storing one or more programs;

the one or more programs, when executed by the one or more processors, cause the one or more processors to implement the method of any of claims 5-9.

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