CN113934917A - APP management method, system and storage medium - Google Patents

Abstract

The present application relates to the technical field of APP management, and in particular, to an APP management method, system, and storage medium, where the management method includes: acquiring a test result query request sent by a user terminal, wherein the test result query request is acquired after any online state device is selected based on an APP of the user terminal; calling a test result of the current time period of the online state equipment based on the test result query request, wherein the test result comprises total data and various test data; and sending the test result to the user terminal, wherein the test result comprises total data and various test data. The user is convenient for know the service condition of the test equipment in real time, the possibility that the user can know the service condition of the test equipment only on site is effectively reduced, and therefore the user can know the test condition and the performance of the test equipment and the production condition of the circuit board in time.

Description

APP management method, system and storage medium

Technical Field

The present application relates to the field of APP technologies, and in particular, to an APP management method, system, and storage medium.

Background

In the mass production process of the PCBA, the quality of the produced PCBA is likely to vary due to the operational state of the equipment, human factors of the operator, and the like. In order to ensure the quality of subsequent electronic products, before the electronic products are assembled, the PCBA of the electronic products is generally subjected to a functional test by a test device.

However, when a user uses the testing device, the user can only know the use state and performance of the testing device on site, and cannot know the use condition of the testing device in time.

Disclosure of Invention

In order to facilitate timely understanding of the service condition of the test equipment, the application provides an APP management method, system and storage medium.

In a first aspect, the APP management method provided by the present application adopts the following technical scheme:

an APP management method, comprising:

acquiring a test result query request sent by a user terminal, wherein the test result query request is acquired after any online state device is selected based on an APP of the user terminal;

calling a test result of the current time period of the online state equipment based on the test result query request, wherein the test result comprises total data and various test data;

and sending the test result to the user terminal, wherein the test result comprises total data and various test data.

By adopting the technical scheme, the user can conveniently know the use state of the test equipment in real time, the possibility that the user can know the use condition of the test equipment only on the spot is effectively reduced, and the user can timely know the test condition and the performance of the test equipment and the production condition of the circuit board.

Optionally, the method further includes:

after the step of sending the test result to the user terminal, the method further comprises:

acquiring a time period query request sent by a user terminal;

calling a test result in a corresponding time period stored in a server background based on the time period query request;

and sending the test result in the corresponding time period to the user terminal.

By adopting the technical scheme, the working state of the test equipment in any time period and the detection result of the circuit board can be conveniently checked, and the later-stage tracing is facilitated.

The step of obtaining the test result query request sent by the user terminal further comprises the following steps:

acquiring a login account of an APP of a user terminal;

inquiring the equipment group where the user terminal is located according to the login account;

and transmitting all test equipment contained in the equipment group to the APP of the user terminal, wherein the test equipment comprises online state equipment and offline state equipment.

By adopting the technical scheme, the members in the same equipment group can know the working states and the test conditions of all the test equipment in the equipment group.

Optionally, the method further includes:

acquiring a parameter setting query request of the online state equipment;

calling the configuration parameters of the online state setting based on the parameter setting query request; the test configuration parameters comprise lamp test parameters, output test parameters, short circuit test parameters, charging test parameters, motor test parameters and static test parameters;

sending the configuration parameters to a user terminal;

acquiring a correction parameter, wherein the correction parameter is obtained by correcting the configuration parameter by a user terminal;

and sending the correction parameters to the online state equipment, wherein the correction parameters are used for judging whether the product is qualified or not under the condition that the online state equipment detects the product.

By adopting the technical scheme, the test configuration parameters can be set according to the requirements of users, so that the diversity of the test equipment is improved conveniently.

Optionally, the method further includes:

acquiring a detailed data query request of any test sent by a user terminal;

calling a test result of any one test based on the detailed data query request, and obtaining bad product detailed data according to the test result; wherein the bad product detail data comprises bad number statistics, bad rate statistics, bad details today and bad details yesterday of any one of the tests;

and sending the bad product detail data to a user terminal.

Through adopting above-mentioned technical scheme, be convenient for know the problem that the defective products exist, help carrying out the adaptability adjustment to the production process of circuit board according to the problem that exists.

Optionally, the method further includes:

acquiring a device information query request of the online state device sent by a user terminal;

calling device information of the online state device based on the device information query request, wherein the device information comprises a hardware version, an input voltage, a battery voltage, a software version, a static voltage, a load resistance, a login time and a last online time;

and sending the equipment information to a user terminal.

By adopting the technical scheme, the state of the test equipment can be conveniently and timely known.

Optionally, the method further includes:

obtaining the equipment name of the test equipment, wherein the equipment name is obtained by pressing a networking key of the test equipment for a long time until an indicator lamp flickers;

and acquiring the Bluetooth of the test equipment, wherein the Bluetooth is used for the user terminal to send network configuration information to the test equipment, and the network configuration information is generated after the user terminal communicates with the test equipment through the Bluetooth and is used for the test equipment to communicate with the server background.

By adopting the technical scheme, the equipment is convenient to add, and the situation that newly purchased test equipment cannot be monitored in time is effectively reduced.

In a second aspect, the APP management system provided by the application adopts the following technical scheme:

an APP management system comprising:

the login account acquisition module is used for acquiring a login account and inquiring an equipment group where a user corresponding to the login account is located according to the login account;

the test list acquisition module is used for acquiring a test list, wherein the test list comprises a plurality of production line bodies contained in the equipment group and test equipment contained in the production line bodies, and the test equipment comprises on-line state equipment and off-line state equipment;

and the test result acquisition module is used for acquiring a test result of any one online state device, wherein the test result comprises device information, total data and various test data.

By adopting the technical scheme, the user can conveniently know the use state of the test equipment in real time, the possibility that the user can know the use condition of the test equipment only on the spot is effectively reduced, and the user can timely know the test condition and the performance of the test equipment and the production condition of the circuit board.

In a third aspect, the present application provides an intelligent terminal, which adopts the following technical scheme:

an intelligent terminal comprising a memory and a processor, said memory having stored thereon a computer program that can be loaded by the processor and that can perform any of the methods of APP management as described above.

By adopting the technical scheme, the user can conveniently know the use state of the test equipment in real time, the possibility that the user can know the use condition of the test equipment only on the spot is effectively reduced, and the user can timely know the test condition and the performance of the test equipment and the production condition of the circuit board.

In a fourth aspect, the present application provides a computer-readable storage medium, which adopts the following technical solutions:

a computer readable storage medium storing a computer program capable of being loaded by a processor and executing any one of the above APP management methods.

By adopting the technical scheme, the user can conveniently know the use state of the test equipment in real time, the possibility that the user can know the use condition of the test equipment only on the spot is effectively reduced, and the user can timely know the test condition and the performance of the test equipment and the production condition of the circuit board.

Drawings

Fig. 1 is a block diagram of a multi-performance parameter synchronous testing system of a circuit board according to an embodiment of the present disclosure.

Fig. 2 is a block diagram illustrating a structure of an internet of things system according to an embodiment of the present application.

FIG. 3 is a home interface of an APP shown in one embodiment of the present application.

Fig. 4 is a flowchart illustrating an APP management method according to an embodiment of the present application.

Fig. 5 is a test device data interface of an APP according to an embodiment of the present application.

Fig. 6 is a display interface of defective product detail data of an APP shown in one embodiment of the present application.

Description of reference numerals: 1. a power supply module; 2. a controller; 3. a test module; 31. a lamp testing unit; 32. a charging test unit; 33. a static test unit; 34. a short circuit test unit; 35. an output test unit; 36. a motor test unit; 4. a judging module; 5. a display module; 6. the simulation smoking module.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

To make the objects, technical solutions and advantages of the present application more clear, embodiments of the present application will be described in further detail below with reference to the accompanying drawings.

The embodiment of the application discloses a test device.

As shown in fig. 1, an embodiment of the present application discloses a testing device, in which a circuit board multi-performance parameter synchronous testing system is integrated. The circuit board multi-performance parameter synchronous test system comprises a controller 2, a power supply module 1, a test module 3, a judgment module 4, a display module 5 and a simulated smoking module 6, wherein the power supply module 1, the test module 3, the judgment module 4, the display module 5 and the simulated smoking module 6 are used for supplying power to the controller 2 and a circuit board to be tested, and the test module 3, the judgment module 4, the display module 5 and the simulated smoking module 6 are all connected with the controller 2.

The test module 3 is used for detecting various performance parameters of the circuit board to be tested and sending the detected performance parameters to the controller 2, and the controller 2 is used for sending the received performance parameters to the display module 5 and the storage module; meanwhile, the controller 2 sends the received performance parameters to the judging module 4, and the judging module 4 is used for comparing the performance parameters with the corresponding preset standard values and judging whether the circuit board is a defective product.

In addition, the power module 1 comprises a power unit and a battery unit, wherein the power unit is used for supplying power to the controller 2 and charging the circuit board to be tested; the battery unit is used for supplying power to the circuit board to be tested.

The test module 3 includes a lamp test unit 31, a charging test unit 32, a static test unit 33, a short circuit test unit 34, an output test unit 35, and a motor test unit 36. The lamp testing unit 31 is used for detecting the working state of the indicator lamp on the circuit board, the charging testing unit 32 is used for detecting the charging state of the circuit board, the static testing unit 33 is used for detecting the static current of the circuit board, the short-circuit testing unit 34 is used for detecting whether the circuit board is short-circuited, the output testing unit 35 is used for detecting the output voltage and the output current of the circuit board in the smoking state, and the motor testing unit 36 is used for detecting the working state of the airflow switch on the circuit board, so that the circuit board of the electronic cigarette can be tested conveniently.

Specifically, when the test is needed, the power supply unit supplies power to the controller 2, and the battery unit supplies power to the circuit board to be tested. The static test unit 33 is configured to detect a static current of the circuit board, where the static current refers to a current when no signal is input, at this time, current information of the circuit board to be tested is obtained and sent to the controller 2, the controller 2 sends the obtained current information to the determination module 4, the static current of the circuit board to be tested is compared with a preset standard value through the determination module 4, and whether the static current of the circuit board to be tested is qualified is determined.

When a lamp test, a charge test and a short circuit test are required to be carried out, the power supply unit supplies power to the controller 2, the battery unit supplies power to the circuit board to be tested, and meanwhile, the power supply unit charges the circuit board to be tested, so that the indicator lamp on the circuit board to be tested is lightened, at the moment, the camera is adopted to acquire the image information of the indicator lamp on the circuit board to be tested and send the acquired image information to the controller 2, the received image information is compared with a preset standard value through the judgment module 4, and whether the indicator lamp on the circuit board to be tested is qualified is judged; meanwhile, the input voltage information of the circuit board to be tested is acquired, the acquired input voltage information is sent to the judging module 4 through the controller 2, and whether the input voltage information of the circuit board to be tested is within a preset standard value or not is judged, so that the charging state of the circuit board to be tested is judged conveniently. In addition, the current information of the circuit board to be detected is acquired, the acquired input voltage information is sent to the judging module 4 through the controller 2, and whether the current information of the circuit board to be detected is within a preset standard value or not is judged, and the current value is increased under the short-circuit state, so that whether the short-circuit phenomenon exists in the circuit board to be detected or not is judged conveniently.

Referring to fig. 1, when an output test and a motor test are required, the controller 2 controls the simulated smoking module 6 to work, so as to simulate the state of the electronic cigarette when a human body smokes. Because the circuit board in the electronic cigarette is provided with the airflow switch, when the simulated smoking module 6 works, the electronic cigarette inhales air, so that the airflow switch is turned on to indicate that the electronic cigarette is in a working state; at the moment, the current information of the airflow switch on the circuit board to be tested is obtained, the output voltage and the output current of the circuit board in the smoking state are obtained at the same time, and whether the current information, the output voltage and the output current of the airflow switch of the circuit board to be tested are in the corresponding preset standard values or not is judged through the judging module 4. Through the operating condition of simulation electron cigarette, whether output voltage and output current and the air current switch of being convenient for under the test smoking state normally work to be convenient for further improve the accuracy that the circuit board detected.

In the process of detecting the circuit board, the display module 5 displays various performance parameters of the circuit board in real time. Specifically, the display module 5 includes a test result display unit, a statistical data display unit, an equipment information display unit, and a test state display unit. The test result display unit is used for displaying test results of the circuit boards, the test results comprise information such as lamp test values, charging test values, output test values, short circuit test values, motor test results and static test values, the statistical data display unit is used for displaying statistical data, the statistical data comprise the number of the circuit boards in various bad reasons and the number of the detected circuit boards, the equipment information display unit is used for displaying equipment information, the equipment information comprises information such as input voltage, battery voltage, static voltage, load resistance, hardware versions and software versions, the test state display unit is used for displaying test states of various tests of the circuit boards and test results of the circuit boards, and the test states comprise test OK, test NG, TSET in the test and WAIT to be tested. Therefore, the detection personnel only need to check the test result displayed on the test state display unit to judge whether the circuit board is a defective product.

Based on the test equipment, the embodiment of the application also discloses an Internet of things system.

As an implementation manner of the internet of things system, with reference to fig. 2, the internet of things system includes a test device, a server background, and a user terminal, which are integrated with the circuit board multi-performance parameter synchronous test system, and the circuit board multi-performance parameter synchronous test system further includes a bluetooth WIFI module, and communicates with the server background through the bluetooth WIFI integrated module.

After the test equipment is powered on, the controller judges whether the controller can communicate with the server background, and if so, the controller sends test request information to the server background through the Bluetooth WIFI integrated module; if not, the user terminal communicates with the test equipment through the Bluetooth and sends network configuration information to the test equipment through the Bluetooth. And after receiving the network configuration information, the test equipment is automatically connected with the network and sends test request information to the server background, wherein the test request information comprises the identification information of the test equipment.

And after receiving the test request information, the server background identifies the test equipment based on the identification information of the test equipment and sends authorization information to a controller of the test equipment.

After receiving the authorization information, the controller controls the test module to test the circuit board and sends a test result to the server background, wherein the test result comprises test data, statistical data and equipment information; the test data comprises a lamp test value, an output test value, a short circuit test value, a charging test value, a motor test value and a static test value; the statistical data comprises the total test quantity, the total failure quantity and the failure rate of the test equipment; the device information includes input voltage, battery voltage, quiescent voltage, load resistance, hardware version, and software version.

And the server background calculates according to the received test data and the statistical data to obtain detection data, wherein the detection data comprises various test data, and the various test data comprises the defective rate statistics, the defective number statistics and the defective records of various tests.

In addition, the user terminal is provided with an APP authorized by the server background, and the user terminal provided with the APP can use the APP only after being authorized by the server background.

It should be noted that, when the user terminal sends the network configuration information to the test device and the test device communicates with the server background, the test device communicates with the user terminal through the server background.

Based on the test equipment and the internet of things system, the embodiment of the application further discloses a management method based on the APP.

With reference to fig. 3, after a user logs in an APP through a user terminal, a login account of the APP is acquired, an equipment group where the user is located is queried according to the login account, the APP of the user terminal acquires and displays a plurality of production line bodies included in the equipment group and test equipment included in the production line bodies, wherein the test equipment includes online state equipment and offline state equipment.

As an embodiment of the management method, in conjunction with fig. 4, the following steps are included:

and S1, acquiring a test result query request sent by the user terminal, wherein the test result query request is acquired by selecting any online state equipment by the user based on the APP of the user terminal.

Specifically, the APP of the user terminal displays all the test devices in the device group where the user corresponding to the user terminal is located, and the user sends a test result query request to the server background by arbitrarily clicking any one of the online state devices on the display screen of the user terminal.

And S2, retrieving the current test result of the online state device based on the test result query request, wherein the test result comprises total data and various test data.

And S3, sending the test result to the user terminal.

With reference to fig. 5, after receiving the query request of the test result, the server background retrieves the current test result of the test device stored in the server background, sends the test result of the test device to the user terminal, and enables the APP of the user terminal to directly enter the data interface of the test device, so as to display the total data and various test data of the test device in the current time period.

Wherein, the total data comprises the total testing quantity, the total defect quantity and the defect rate; the test data includes statistics of the number of failures for each test.

It should be noted that the server background defaults to extract the test result of the current day, and the test result of the current day can be updated by selecting a time period in the process of displaying the test result of the current day.

The method for acquiring the test result corresponding to the time period includes the steps of acquiring a time period query request sent by the user terminal, calling the test result in the corresponding time period stored in the server background based on the time period query request, and sending the test result in the corresponding time period to the user terminal.

Specifically, when the user terminal is in the data interface of the test device, the time period can be arbitrarily selected, wherein the time period can be set as a day.

For example, if the current time is 5 months, 5 days and 15 points, after the server background receives a statistical result query request sent by the user terminal, the server background extracts stored total data between 0 point and 15 points in 5 months and 5 days and various test data, and sends the total data and various test data to the APP of the user terminal, so that the APP of the user terminal directly enters a data interface of the test equipment. At this time, the time period can be selected arbitrarily by clicking the time displayed on the data interface of the current test equipment, after the time period is selected, the APP of the user terminal sends a time period query request to the server background, the test result in the corresponding time period stored in the server background is called based on the time period query request, and the test result in the corresponding time period is sent to the user terminal.

In addition, when the server background calls the test result of the corresponding time period, the server background obtains the test result of the previous corresponding time period, generates a data curve graph according to the number of the faults in the preset period in the corresponding time period and the number of the faults in the preset period in the previous corresponding time period, and marks the total number of the faults in the corresponding time period and the total number of the faults in the previous corresponding time period on the data curve graph. Such as: this day is not good: 4, yesterday is bad: 3.

for example, the server background extracts the failure numbers in each time period before 0-15 o ' clock in 5 months and 5 days, for example, the failure number from 8 o ' clock to 9 o ' clock is 1, the failure number from 9 o ' clock to 10 o ' clock is 1, and the failure number from 10 o ' clock to 11 o ' clock is 1 … … to generate a data curve graph according to the time period and the failure number corresponding to each time period.

As another implementation of the management method, a parameter setting query request of the online state device is obtained, and the configuration parameters of the online state device are called and sent to the APP of the user terminal based on the parameter setting query request; the configuration parameters comprise lamp test parameters, output test parameters, short circuit test parameters, charging test parameters, motor test parameters and static test parameters; acquiring a correction parameter sent by a user terminal, wherein the correction parameter is obtained by correcting a test configuration parameter by the user terminal; and sending the correction parameters to the online state equipment, wherein the correction parameters are used for judging whether the product is qualified or not when the online state equipment detects the product.

Specifically, a user clicks a parameter setting button on the APP of the user terminal to send a parameter setting query request of the online state equipment to the server, and after receiving the parameter setting query request, the server background calls the configuration parameters set by the online state and sends the configuration parameters to the APP of the user terminal. The user corrects the configuration parameters displayed on the APP of the user terminal according to the self requirements to obtain correction parameters, the correction parameters are sent to the server background, and the server background sends the correction parameters to the online state equipment, so that the online state equipment judges whether the product is qualified or not based on the correction parameters when detecting the product.

For example: the qualified range of the output voltage is 1V-3V, and a user can dynamically adjust the parameters of 1V and 3V through the APP of the user terminal.

As another embodiment of the management method, the server background acquires the device information query request of the online state device sent by the user terminal, and after receiving the device information query request, the server background calls the device information of the online state device and sends the device information to the APP of the user terminal for display. The device information includes a hardware version, an input voltage, a battery voltage, a software version, a quiescent voltage, a load resistance, a login time, and a last online time.

As shown in fig. 6, in addition, a detail data query request of any test sent by the user terminal is obtained, a test result of the test is retrieved based on the detail data query request, defective product detail data is obtained according to the test result, and the defective product detail data is sent to the user terminal, where the defective product detail data includes defective number statistics, defective rate statistics, defective details today, and defective details yesterday of the test.

As another embodiment of the management method, when an equipment group needs to be added, an equipment group addition request is sent to a server background based on an APP of a user terminal, and the server background receives the equipment group addition request and sends basic information of the equipment group to the APP of the user terminal, where the basic information of the equipment group includes an equipment group name, a production line body, and a number of members.

The APP of the user terminal receives and displays basic information of the equipment group, the name of the equipment group can be modified, the modified name of the equipment group is sent to the server background, production line bodies can be added or deleted according to actual conditions, and test equipment in each production line body is added. Meanwhile, members can be added or deleted according to actual conditions, so that the members in the same equipment group can know the working states and the test conditions of all the test equipment in the equipment group.

As another implementation of the management method, the device name is obtained in a state that the test device needs to be added, and the device name is obtained based on long-time pressing of a networking key of the test device until the indicator light flickers; the Bluetooth is connected with the test equipment and is communicated with the test equipment based on the Bluetooth; acquiring network configuration information, wherein the network configuration information comprises a network user name and a password; and sending network configuration information to the test equipment based on the Bluetooth, wherein the network configuration information is used for the test equipment to communicate with the server background.

Based on the management method of the APP, the embodiment further discloses an APP management system, which includes:

the device comprises a query request acquisition module, a test result query module and a test result query module, wherein the query request acquisition module is configured to acquire a test result query request sent by a user terminal, and the test result query request is acquired after any online state device is selected based on an APP of the user terminal;

the test result acquiring module is configured to invoke a test result of the online state device in the current time period based on the test result query request, wherein the test result comprises total data and various test data;

a test result sending module configured to send the test result to the user terminal, where the test result includes total data and various pieces of test data.

The embodiment of the application also discloses an intelligent terminal, which comprises a memory and a processor, wherein the memory is stored with a computer program which can be loaded by the processor and can execute the APP management method.

The embodiment of the present application further discloses a computer-readable storage medium, which stores a computer program that can be loaded by a processor and execute the APP management method, and the computer-readable storage medium includes: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-only memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

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 (10)

1. An APP management method, comprising:

acquiring a test result query request sent by a user terminal, wherein the test result query request is acquired after any online state device is selected based on an APP of the user terminal;

calling a test result of the current time period of the online state equipment based on the test result query request, wherein the test result comprises total data and various test data;

and sending the test result to the user terminal, wherein the test result comprises total data and various test data.

2. The APP management method of claim 1, wherein the step of sending the test result to the user terminal further comprises:

acquiring a time period query request sent by a user terminal;

calling a test result in a corresponding time period stored in a server background based on the time period query request;

and sending the test result in the corresponding time period to the user terminal.

3. The APP management method of claim 1, wherein the step of obtaining the test result query request sent by the user terminal further comprises:

acquiring a login account of an APP of a user terminal;

inquiring the equipment group where the user terminal is located according to the login account;

and transmitting all test equipment contained in the equipment group to the APP of the user terminal, wherein the test equipment comprises online state equipment and offline state equipment.

4. The APP management method of claim 1 or 2, further comprising:

acquiring a parameter setting query request of the online state equipment;

calling the configuration parameters of the online state setting based on the parameter setting query request; the test configuration parameters comprise lamp test parameters, output test parameters, short circuit test parameters, charging test parameters, motor test parameters and static test parameters;

sending the configuration parameters to a user terminal;

acquiring a correction parameter, wherein the correction parameter is obtained by correcting the configuration parameter by a user terminal;

and sending the correction parameters to the online state equipment, wherein the correction parameters are used for judging whether the product is qualified or not under the condition that the online state equipment detects the product.

5. The APP management method of claim 1, further comprising:

acquiring a detailed data query request of any test sent by a user terminal;

calling a test result of any one test based on the detailed data query request, and obtaining bad product detailed data according to the test result; wherein the bad product detail data comprises bad number statistics, bad rate statistics, bad details today and bad details yesterday of any one of the tests;

and sending the bad product detail data to a user terminal.

6. The APP management method of claim 1, further comprising:

acquiring a device information query request of the online state device sent by a user terminal;

calling device information of the online state device based on the device information query request, wherein the device information comprises a hardware version, an input voltage, a battery voltage, a software version, a static voltage, a load resistance, a login time and a last online time;

and sending the equipment information to a user terminal.

7. The APP management method of claim 1, further comprising:

obtaining the equipment name of the test equipment, wherein the equipment name is obtained by pressing a networking key of the test equipment for a long time until an indicator lamp flickers;

and acquiring the Bluetooth of the test equipment, wherein the Bluetooth is used for the user terminal to send network configuration information to the test equipment, and the network configuration information is generated after the user terminal communicates with the test equipment through the Bluetooth and is used for the test equipment to communicate with the server background.

8. An APP management system, comprising:

the device comprises a query request acquisition module, a test result query module and a test result query module, wherein the query request acquisition module is configured to acquire a test result query request sent by a user terminal, and the test result query request is acquired after any online state device is selected based on an APP of the user terminal;

the test result acquiring module is configured to invoke a test result of the online state device in the current time period based on the test result query request, wherein the test result comprises total data and various test data;

a test result sending module configured to send the test result to the user terminal, where the test result includes total data and various pieces of test data.

9. The utility model provides an intelligent terminal which characterized in that: comprising a memory and a processor, said memory having stored thereon a computer program which can be loaded by the processor and which performs the method according to any of the claims 1-7.

10. A computer-readable storage medium characterized by: a computer program which can be loaded by a processor and which performs the method according to any of claims 1-7.

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