CN113589075B

CN113589075B - WiFi and display integrated intelligent air conditioner detection system

Info

Publication number: CN113589075B
Application number: CN202110823032.1A
Authority: CN
Inventors: 李明; 荣霞芳; 郭海峰; 王菁宇; 袁龙刚
Original assignee: Sichuan Hongmei Intelligent Technology Co Ltd
Current assignee: Sichuan Hongmei Intelligent Technology Co Ltd
Priority date: 2021-07-21
Filing date: 2021-07-21
Publication date: 2023-04-18
Anticipated expiration: 2041-07-21
Also published as: CN113589075A

Abstract

The embodiment of this specification provides a detection system of wiFi and intelligent air conditioner that shows integration, including simplex position detection device, simplex position detection device includes: the system comprises a first router, a power supply tool, a first scanning gun, a first printer and a first computer, wherein the first computer is respectively connected with the first scanning gun, the first printer and the power supply tool; the first scanner is used for: after the integrated board is powered on, the identification information of the WiFi module on the integrated board is scanned, and a code scanning result is sent to the first computer. The mode has less manual participation, can greatly submit the test efficiency, and the first computer carries out the test through single-station test software, so the test can reduce the manual parameters and improve the test objectivity.

Description

WiFi and display integrated intelligent air conditioner detection system

Technical Field

One or more embodiments of the present specification relate to the technical field of production detection, and in particular, to a detection system for a WiFi and display integrated intelligent air conditioner.

Background

With the rapid development of the intelligent air conditioner, the intelligent air conditioner integrating WiFi and display also comes along. WiFi and demonstration integration's meaning is with independent WiFi module under the condition that does not use external conductor, with the display panel welding of intelligence air conditioner together, the WiFi module carries out the communication through the automatically controlled module of display panel with air conditioner internal unit like this, except detecting the function of WiFi module itself like this, new detection demand has been produced, promptly to the detection of the communication between WiFi module and the display panel, even pass through the detection of communication between the automatically controlled module of display panel and air conditioner internal unit to the WiFi module, so need provide corresponding detection scheme to new detection demand.

Disclosure of Invention

One or more embodiments of the present disclosure describe a detection system for a WiFi and display integrated intelligent air conditioner, which is used for testing a radio frequency function of a WiFi module and testing an interaction function between the WiFi module and a display panel.

The invention provides a WiFi and display integrated intelligent air conditioner detection system, which comprises a single-station detection device, wherein the single-station detection device is used for detecting an integrated plate formed by combining a WiFi module and a display plate; the simplex position detection device includes: first router, power supply frock, first scanning yard rifle, first printer and first computer, wherein:

the first computer is respectively connected with the first code scanning gun, the first printer and the power supply tool, single-station detection software is installed on the first computer, the power supply tool is further connected with the integrated plate, the power supply tool is used for supplying power to the integrated plate and transmitting information between the first computer and the integrated plate;

the first scan gun is used for: after the integrated board is powered on, scanning the identification information of the WiFi module on the integrated board, and sending a code scanning result to the first computer;

the first computer is to: after receiving the code scanning result, controlling the first printer to print the two-dimensional code corresponding to the identification information; sending a first test command to the integrated board through the power supply tool, and displaying a first test result on a display interface after receiving the first test result returned by the integrated board;

the WiFi module of the integrated board is used for: after the first test command is received, testing the radio frequency function of the WiFi module and the interaction function of the serial port between the WiFi module and the display panel through the first router to obtain a first test result, and sending the first test result to the first computer through the power supply tool.

According to the detection system of the intelligent air conditioner integrating the WiFi and the display, after the integrated board is powered on, the identification information of the WiFi module on the integrated board is scanned, a code scanning result is sent to the first computer, and the first computer controls the first printer to print the two-dimensional code corresponding to the identification information after receiving the code scanning result, so that the two-dimensional code can be used for subsequent complete machine tests. The first computer sends a first test command to the integrated board through the power supply tool, the WiFi module of the integrated board tests the radio frequency function of the WiFi module and tests the interaction function of the serial port between the WiFi module and the display board through the first router after receiving the first test command, a first test result is obtained, and the first test result is sent to the first computer through the power supply tool. And the first computer displays the first test result on a display interface after receiving the first test result returned by the integrated board. By the method, the radio frequency function of the WiFi module is tested, the interaction function between the WiFi module and the display panel is tested, and the integrated board is tested. The mode has less manual participation, can greatly submit the test efficiency, and the first computer carries out the test through single-station test software, so the test can reduce the manual parameters and improve the test objectivity.

Drawings

In order to more clearly illustrate the embodiments of the present specification or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the description below are some embodiments of the present specification, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic structural diagram of a single-station detection apparatus according to an embodiment of the present disclosure;

FIG. 2 is a schematic view of the processing of an air conditioner indoor unit in one embodiment of the present disclosure;

fig. 3 is a schematic layout diagram of the complete machine inspection device in one embodiment of this specification.

Detailed Description

The scheme provided by the specification is described below with reference to the accompanying drawings.

The invention provides a detection system of a WiFi and display integrated intelligent air conditioner, as shown in figure 1, the system comprises: the single-station detection device is used for detecting an integrated board formed by combining the WiFi module and the display board; the simplex position detection device includes: first router, power supply frock, first scanning yard rifle, first printer and first computer, wherein:

the WiFi modules of the integrated board are used for: after the first test command is received, testing the radio frequency function of the WiFi module and the interaction function of the serial port between the WiFi module and the display panel through the first router to obtain a first test result, and sending the first test result to the first computer through the power supply tool.

It can be understood that the simplex position detection device is used for detecting the radio frequency function of the WiFi module, that is, the function of connecting the first router, and is also used for detecting the serial port between the WiFi module and the display panel, that is, the interactive function between the WiFi module and the display panel.

In practice, as shown in fig. 2, the production process of the air conditioner internal unit generally includes a production process of a module factory, a production and detection process of an electric control factory, and a production and detection process of a whole plant. The production process of the module factory comprises a production process of the WiFi module, and the production process comprises software configuration and hardware production of the WiFi module. The production and detection process of the electric control plant comprises the process of integrally processing the WiFi module and the display panel to obtain an integrated plate and the process of carrying out single-station detection on the integrated plate, and the production and detection process of the whole plant comprises the assembly of the whole plant and the detection process of the whole plant. Therefore, the single-station detection device is applied to the process of integrally processing the WiFi module and the display panel to obtain the integrated plate in the production and detection processes of an electric control plant. The complete machine detection device mentioned below is applied to the detection process of the complete machine in the production and detection process of the complete machine factory.

It can be understood that, because there is no power supply on the integrated board, the power supply tool is needed to supply power to the integrated board, and the power supply tool is also used as a communication bridge between the first computer and the integrated board, so that the power supply tool is provided with a serial port line to perform information interaction. Before the single-station detection device is used for detection, certain preparation work needs to be carried out, a first computer and a body board are connected through a power supply tool, a first scanning gun is connected to the first computer, a first printer is also connected to the first computer, after the connection, relevant parameters of single-station detection software on the first computer are configured to be suitable for the body board of the current model, and a switch of the power supply tool is turned on.

In specific implementation, after the integrated board is powered on, a worker uses a first code scanning gun to scan the identification information of the WiFi module on the integrated board, so that the first code scanning gun sends a code scanning result obtained by scanning to a first computer, and the first computer controls the first printer to print a two-dimensional code corresponding to the identification information after receiving the code scanning result; meanwhile, the first computer can also send a first test command to the power supply tool through the simplex position detection software, the power supply tool can forward the first test command to the WiFi module of the integrated board after receiving the first test command, the WiFi module is triggered to test the radio frequency function and the interaction function of the serial port between the radio frequency function and the display board, the WiFi module sends a corresponding first test result to the power supply tool after the test is completed, the power supply tool sends the first test result to the first computer, and then the first computer displays the first test result on a display interface of the simplex position detection software.

The identification information of the WiFi module may be, but is not limited to, a MAC address, which is used to uniquely identify the WiFi module. The MAC address may be laser engraved on the integrated board. The first computer, the first code scanning gun, the first printer and the power supply tool can be connected in a USB mode, namely the first code scanning gun, the first printer and the power supply tool are inserted into a USB port of the first computer. In addition, the first computer and the first printer need external power sources. Be provided with the reservation seat on integrative board, the integrative board can be connected with the power supply frock through reservation seat and connecting wire like this to supply power for the integrative board. The first router is provided with a fixed service set identifier (namely ssid) and a password, the first computer is connected with the first router, the service set identifier and the password of the first router are sent to the WiFi module through a first test command, and therefore the WiFi module can judge whether the radio frequency function is normal or not according to the condition that the service set identifier and the password try to connect the first router.

In the process, the first computer is in data communication with the WiFi module on the integrated board through the power supply tool, and after the whole machine is assembled, the WiFi module needs to be in communication with the electric control module in the air conditioner indoor unit through the display board.

In a specific implementation, the first test result may include a test result of the rf function of the WiFi module and a test result of the interaction function between the WiFi module and the display panel. At this time, the WiFi module of the integrated board may be specifically configured to: after receiving the first test command, scanning and connecting routers in the surrounding environment, and if the WiFi module is connected to the first router and the signal intensity between the WiFi module and the first router is greater than a preset value, the test result of the radio frequency function of the WiFi module is successful; the WiFi module of the integrated board may be further specifically configured to: after receiving the first test command, sending a starting-up instruction to the display panel, and if a starting-up result returned by the display panel is not received within a preset time length or the starting-up result received within the preset time length is a starting-up failure, determining that a test result of an interactive function between the WiFi module and the display panel is a failure; if the received starting-up result in the preset time length is successful, determining that the test result of the interactive function of the serial port between the WiFi module and the display panel is successful; the display panel is used for carrying out the startup operation after receiving the startup instruction and returning the startup result to the WiFi module.

The testing process of the radio frequency function of the WiFi module substantially comprises: the WiFi module scans surrounding routers after receiving a test command, tries to log in the first router through a service set identifier and a password after scanning the first router, if the first router cannot be logged in, or after logging in, the WiFi module and the first router have small signal intensity and cannot reach an expected preset value, the connection is considered to be failed, at the moment, the fact that the radio frequency function of the WiFi module is abnormal corresponds to the fact that the test result of the radio frequency function of the WiFi module is failure. Only if the WiFi module can be connected to the first router and the signal strength between the WiFi module and the first router is greater than a preset value, it is indicated that the radio frequency function of the WiFi module is normal, and correspondingly, the test result of the radio frequency function of the WiFi module is successful.

The test process of the serial port interaction function between the WiFi module and the display panel is that the WiFi module and the display panel perform data interaction through the serial port so as to test whether the serial port is normal. The specific process comprises the following steps: after the WiFi module receives the first test command, the WiFi module sends a power-on instruction to the display panel, if the display panel does not receive the power-on instruction, a power-on result is not returned within a preset time, or if the display panel receives the power-on instruction, the display panel cannot be lighted after power-on operation, which indicates that the integrated panel has a problem, and the test result of the interactive function is considered to be a failure. And if the display panel returns power-on success to the WiFi module within the preset time, namely the display panel is lightened successfully, the test result of the interactive function of the serial port between the WiFi module and the display panel is considered to be successful. The preset time may be, but is not limited to, 2 seconds.

In specific implementation, the WiFi module returns the first test result to the first computer, and also returns the identification information, the software archive number and the software version of the WiFi module to the first computer through the power supply tool.

Correspondingly, the first computer may be configured to: if at least one of the test result of the radio frequency function and the test result of the interactive function is a failure, the whole test result of the integrated board is a failure; if the test result of the radio frequency function and the test result of the interactive function are both successful, comparing the identification information, the software archive number and the software version with corresponding setting parameters on the single-station detection software respectively, and if the comparison results of the identification information, the software archive number and the software version are all consistent, determining that the overall test result of the integrated board is successful; if the comparison result of at least one of the identification information, the software archive number and the software version is inconsistent, the overall test result of the integrated board is failure; and displaying the whole test result on a display interface.

That is, if the test result of the radio frequency function and/or the test result of the interactive function is a failure, it indicates that the overall test result of the integrated board is a failure. However, if the test result of the rf function and the test result of the interactive function are both successful, the overall test result of the integrated board is not represented to be successful, because there are many integrated boards to be tested on the testing line, the information on the integrated board needs to be checked, and the specific checking process includes: and comparing the identification information, the software filing number and the software version with corresponding set parameters on the simplex position detection software respectively, if the comparison results of the identification information, the software filing number and the software version are all consistent, the integral test result of the integrated board is successful, and if one parameter is inconsistent, the integral test result of the integrated board is failed. In this way, the first test result and the integrated board are ensured to be corresponding, and the problem of confusion is avoided.

In a specific implementation, the single-station detection device may further include a first mechanical arm, and the first mechanical arm is connected to the first computer; the first computer is further configured to: if the first test result is failure, printing first related test data through the first printer to enable a person to attach the paper printed with the first related test data to the integrated plate, and controlling the first mechanical arm to enable the first mechanical arm to take out the integrated plate attached with the paper to a first preset area; the first relevant test data comprises a test result of the radio frequency function, a test result of the interaction function, and a comparison result of the identification information, the software archive number and the software version.

It can be understood that the reason of the test failure can be analyzed according to the first relevant test data, so that the first relevant test data is printed and attached to the integrated plate, and the first computer takes out the integrated plate and places the integrated plate in the first preset area by controlling the first mechanical arm, so that a person can conveniently analyze the reason.

According to the detection system of the intelligent air conditioner integrating WiFi and display, after the integrated board is powered on, the identification information of the WiFi module on the integrated board is scanned, a code scanning result is sent to the first computer, and the first computer controls the first printer to print the two-dimensional code corresponding to the identification information after receiving the code scanning result so as to be used for subsequent complete machine testing. The first computer sends a first test command to the integrated board through the power supply tool, the WiFi module of the integrated board tests the radio frequency function of the WiFi module and tests the interaction function of the serial port between the WiFi module and the display panel through the first router after receiving the first test command, a first test result is obtained, and the first test result is sent to the first computer through the power supply tool. And the first computer displays the first test result on a display interface after receiving the first test result returned by the integrated board. By the method, the radio frequency function of the WiFi module is tested, the interaction function between the WiFi module and the display panel is tested, and the integrated board is tested. The mode has less manual participation, can greatly submit the test efficiency, and the first computer carries out the test through single-station test software, so the test can reduce the manual parameters and improve the test objectivity.

In specific implementation, the system provided by the invention can further comprise a complete machine detection device, wherein the complete machine detection device is used for testing the assembled air conditioner internal unit, an integrated plate is installed in the air conditioner internal unit, and a WiFi module on the integrated plate is communicated with an electric control module of the air conditioner internal unit through a display plate; the two-dimensional code corresponding to the identification information is pasted on the air conditioner internal unit, as shown in fig. 3, the complete machine detection device includes: the air conditioner comprises a second router, a second code scanning gun, a second computer and a power supply assembly line, wherein the power supply assembly line is used for supplying power to an air conditioner internal unit, the second computer is connected with the second code scanning gun, and complete machine detection software is installed on the second computer, wherein:

the second yard gun of sweeping is used for: scanning a two-dimensional code on the body of the air conditioner internal unit, and sending the two-dimensional code to the second computer;

the second computer is to: after receiving the two-dimension code, sending a second test command to an air conditioner indoor unit corresponding to the two-dimension code through the second router, and displaying a second test result on the display interface after receiving the second test result returned by the air conditioner indoor unit;

the WiFi module in the air conditioner indoor unit is used for: and after the second router is powered on, automatically connecting the second router, after the second test command is received, testing the interaction function of the WiFi module and the electronic control module through the display panel to obtain a second test result, and returning the second test result to the second computer through the second router.

In practice, the whole machine detection process of the whole machine detection device is performed in a commercial laboratory, that is, the whole machine detection device is arranged in the commercial laboratory. Before entering the business and inspection rooms, the air conditioner indoor unit needs to be assembled, and the assembled air conditioner indoor unit comprises the integrated plate. At the entrance of the commercial and laboratory test room, the air conditioner internal unit is powered on, and a power supply assembly line is specifically adopted to supply power to the air conditioner internal unit, so that an integrated board in the air conditioner internal unit is powered on.

Wherein, the two-dimensional code that prints out when simplex position detected is pasted on the fuselage of air conditioner internal unit. The second computer is connected with the second code scanning gun in a USB mode. The WiFi module on the integrated board and the air conditioner indoor unit cannot be directly communicated with each other, and the communication is carried out through the display board. The second computer is connected with the second router in a wireless or wired mode.

In practice, the overall inspection process substantially includes: after the indoor unit of the air conditioner is powered on, the WiFi module can automatically search surrounding routers, and the radio frequency function of the WiFi module is detected to be normal through a single station, so that the WiFi module can be connected to a second router. Personnel adopt the second bar code scanner to scan the two-dimensional code on the air conditioner internal unit fuselage to send the two-dimensional code to the second computer, the second computer sends the second test command to the air conditioner internal unit through the second router like this, and wiFi module in the air conditioner internal unit can pass through the interactive function between display panel and the electrical control module to the wiFi module and test after receiving the second test command, because through simplex position test the wiFi module with interactive function between the display panel is normal, consequently actually detects is the interactive function of display panel and electrical control module. And after the interactive function test is finished, returning a corresponding second test result to the second computer, so that the second computer can be displayed on the display interface.

In particular implementation, the WiFi module may be specifically configured to: after receiving the second test command, sending a starting instruction to the display panel, wherein if a control result returned by the display panel is not received within a preset time length or the control result received within the preset time length is that the air conditioner internal unit fails to start and/or does not enter an air supply mode, the second test result is a failure; and if the received control result in the preset time is that the air conditioner internal unit is successfully started and enters an air supply mode, and the second test result is successful, controlling the WiFi state lamp on the display panel to be turned on.

That is to say, after receiving the second test command, the air conditioner internal unit sends a start-up instruction to the air conditioner internal unit through the display panel, so that the display panel is lighted up, the air conditioner internal unit executes a start-up operation after receiving the start-up instruction, but the start-up fails or the air supply mode is not entered although the start-up is successful, the control result returned to the WiFi module is a failure, and if the air conditioner internal unit does not receive the start-up instruction within the preset time, the control result is not returned within the preset time, so that the failure is also caused. And only if the control result received within the preset time is that the air conditioner internal unit is successfully started and enters an air supply mode, the second test result is successful, and the WiFi module can be controlled by the WiFi state lamp to be turned on.

It can be understood that the purpose of the above-mentioned start-up command is to light up the display panel, and control the air conditioner internal unit to start up successfully and enter the air supply mode within the preset time.

Understandably, the air conditioner internal unit which is successfully detected by the whole machine flows backwards, and other items are continuously detected; and if the complete machine fails to detect the machine, the machine is laid down for further inspection and analysis.

In specific implementation, the complete machine detection device may further include a second printer and a second mechanical arm, and both the second printer and the second mechanical arm are connected to the second computer; the second computer is further configured to: if the second test result is failure, printing second related test data through the second printer to enable personnel to attach the paper printed with the second related test data to the air conditioner indoor unit, and controlling the second mechanical arm to enable the second mechanical arm to take out the air conditioner indoor unit attached with the paper to a second preset area.

The second relevant test data comprises that the control result is not received within a preset time length, and the control result is that the air conditioner internal unit fails to start and/or does not enter an air supply mode.

It can be understood that the reason of the test failure can be analyzed according to the second relevant test data, so that the second relevant test data is printed out and attached to the body of the air conditioner indoor unit, and then the second computer controls the second mechanical arm to take out the air conditioner indoor unit and place the air conditioner indoor unit in the second preset area, so that a worker can analyze the reason.

In specific implementation, a plurality of air conditioner internal units are sequentially detected on the power supply pipeline, and the test process of each air conditioner internal unit has a certain time, so that the next air conditioner internal unit is possibly required to be scanned and tested when the test process of one air conditioner internal unit is not completed, and the next air conditioner internal unit is required to be scanned and tested after one test is completed, so that the efficiency is low. Therefore, a power supply assembly line can be set as an annular dynamic line body, and the annular dynamic line body is used for transporting the air conditioner indoor unit from an entrance gateway to an exit gateway; the second code scanning gun and the second computer are arranged between the entrance gateway and the exit gateway; the second printer and the second mechanical arm are arranged at the gateway.

Correspondingly, the second code scanning gun is specifically used for: scanning the two-dimensional code on the body of the air conditioner indoor unit entering the entrance, and sending the two-dimensional code to the second computer so that the second computer can test the air conditioner indoor unit; and scanning the two-dimensional code transported to the body of the air conditioner indoor unit at the exit, and sending the two-dimensional code to the second computer, so that the second computer obtains a corresponding second test result according to the current two-dimensional code, and displays the second test result on the display interface.

That is to say, when one air conditioner indoor unit enters the entrance and then starts scanning and testing, the air conditioner indoor unit moves towards the exit along with the water flow in the testing process, and at this time, even if the testing process of the air conditioner indoor unit is not finished, the next air conditioner indoor unit can be scanned and tested. After the test of the air conditioner internal unit is finished, the second test result is not directly displayed on the second computer but stored in the second computer. When the air conditioner indoor unit moves to the exit, the personnel scan the two-dimensional code on the air conditioner indoor unit again, then the second computer searches a corresponding second test result in the stored data according to the scanning result, and displays the second test result on the second computer. This way the test efficiency can be greatly improved.

In order to monitor the whole machine detection process before the line detection body during specific implementation, the detection system provided by the invention may further include a monitoring computer disposed outside the line detection body, the monitoring computer is respectively connected to the second computer and the power supply assembly line, wherein: the second computer is further configured to: sending a second test result to the monitoring computer; the monitoring computer is configured to: and displaying the second test results, controlling the power supply assembly line to stop when the second test results of the air conditioner indoor units with the continuously preset number are all failures, and sending reminding information to the second computer so as to remind personnel to check the set parameters of the complete machine detection software on the second computer.

It can be understood that, when the detection results of the consecutive air conditioner internal units are all failed, it is possible that there is not a problem with the air conditioner internal units themselves but an abnormality with other factors, for example, there is a problem with the setting parameters of the complete machine detection software, and thus the second test command formed according to the setting parameters is also problematic, so that the detection of the air conditioner internal units fails. Based on the consideration, the monitoring computer controls the power supply assembly line to stop when the detection results of the continuous air conditioner internal units are all failed, stops continuing detection, sends out reminding information and informs personnel to check the setting parameters of the whole machine detection software so as to eliminate the reason of failure, so that the condition that the test result of the whole machine of the air conditioner internal unit without problems originally is failed can be avoided, and the success rate of the test is improved.

In particular implementation, the detection system may further include a data storage cloud platform; the first computer is further used for sending the first test result to the data storage cloud platform; the second computer is further used for sending the second test result to the data storage cloud platform; the data storage cloud platform is configured to: and performing association processing on the first test result and the second test result according to the identification information of the WiFi module, and storing the association processing.

That is to say, the first computer and the second computer send the test result to the data storage cloud platform to store the test result, so as to search for the test result in the subsequent use. In order to facilitate searching, the first test result and the second test result are mapped and associated by taking the identification information of the WiFi module as a basis.

The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments. In particular, as for the apparatus embodiment, since it is substantially similar to the method embodiment, the description is relatively simple, and for the relevant points, reference may be made to the partial description of the method embodiment.

Those skilled in the art will recognize that the functionality described in this disclosure may be implemented in hardware, software, firmware, or any combination thereof, in one or more of the examples described above. When implemented in software, the functions may be stored on or transmitted over as one or more instructions or code on a computer-readable medium.

The above-mentioned embodiments, objects, technical solutions and advantages of the present invention are further described in detail, it should be understood that the above-mentioned embodiments are only exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made on the basis of the technical solutions of the present invention should be included in the scope of the present invention.

Claims

1. The detection system of the intelligent air conditioner integrating WiFi and display is characterized by comprising a single-station detection device, wherein the single-station detection device is used for detecting an integrated plate formed by combining a WiFi module and a display plate; the simplex position detection device includes: first router, power supply frock, first scanning yard rifle, first printer and first computer, wherein:

the first scanner gun is configured to: after the integrated board is powered on, scanning the identification information of the WiFi module on the integrated board, and sending a code scanning result to the first computer;

the first computer is to: after the code scanning result is received, controlling the first printer to print the two-dimensional code corresponding to the identification information; sending a first test command to the integrated board through the power supply tool, and displaying a first test result on a display interface after receiving the first test result returned by the integrated board;

the WiFi module of the integrated board is used for: after the first test command is received, testing the radio frequency function of the WiFi module and the interaction function of the serial port between the WiFi module and the display panel through the first router to obtain a first test result, and sending the first test result to the first computer through the power supply tool;

the system also comprises a complete machine detection device, wherein the complete machine detection device is used for testing the assembled air conditioner indoor unit, an integrated plate is installed in the air conditioner indoor unit, and a WiFi module on the integrated plate is communicated with an electric control module of the air conditioner indoor unit through a display plate; the air conditioner indoor unit is pasted with the two-dimensional code corresponding to the identification information, and the complete machine detection device comprises: the air conditioner comprises a second router, a second code scanning gun, a second computer and a power supply assembly line, wherein the power supply assembly line is used for supplying power to an air conditioner internal unit, the second computer is connected with the second code scanning gun, and complete machine detection software is installed on the second computer, wherein:

2. The system of claim 1, wherein the first test result comprises a test result of the rf function of the WiFi module and a test result of the inter-function of the serial port between the WiFi module and the display panel;

the WiFi module of the integrated board is specifically configured to: after receiving the first test command, scanning and connecting routers in the surrounding environment, and if the WiFi module is connected to the first router and the signal intensity between the WiFi module and the first router is greater than a preset value, the test result of the radio frequency function of the WiFi module is successful;

the WiFi module of the integrated board is further specifically configured to: after receiving the first test command, sending a starting-up instruction to the display panel, and if a starting-up result returned by the display panel is not received within a preset time length or the starting-up result received within the preset time length is a starting-up failure, determining that a test result of an interactive function between the WiFi module and the display panel is a failure; if the received starting-up result in the preset time length is successful, determining that the test result of the interactive function of the serial port between the WiFi module and the display panel is successful;

the display panel is used for carrying out the startup operation after receiving the startup instruction and returning the startup result to the WiFi module.

3. The system of claim 1,

the WiFi module of the integrated board is further to: when the test result of the radio frequency function and the test result of the interactive function are returned to the first computer, the identification information, the software archive number and the software version of the WiFi module are returned to the first computer through the power supply tool;

the first computer is to: if at least one of the test result of the radio frequency function and the test result of the interactive function is a failure, the whole test result of the integrated board is a failure; if the test result of the radio frequency function and the test result of the interactive function are both successful, comparing the identification information, the software archive number and the software version with corresponding setting parameters on the single-station detection software respectively, and if the comparison results of the identification information, the software archive number and the software version are all consistent, determining that the overall test result of the integrated board is successful; if the comparison result of at least one of the identification information, the software archive number and the software version is inconsistent, the overall test result of the integrated board is failure; and displaying the whole test result on a display interface.

4. The system of claim 1,

the WiFi module is specifically configured to: after receiving the second test command, sending a starting instruction to the display panel, wherein if a control result returned by the display panel is not received within a preset time length or the control result received within the preset time length is that the air conditioner internal unit fails to start and/or does not enter an air supply mode, the second test result is a failure; and if the received control result in the preset time is that the air conditioner internal unit is successfully started and enters an air supply mode, and the second test result is successful, controlling the WiFi status lamp on the display panel to be lightened.

5. The system of claim 1, wherein the single-station inspection device further comprises a first robotic arm, the first robotic arm coupled to the first computer;

the first computer is further configured to: if the first test result is failure, printing first related test data through the first printer to enable a person to attach the paper printed with the first related test data to the integrated plate, and controlling the first mechanical arm to enable the first mechanical arm to take out the integrated plate attached with the paper to a first preset area; the first relevant test data comprises a test result of the radio frequency function, a test result of the interaction function, and a comparison result of the identification information, the software archive number and the software version.

6. The system of claim 4, wherein the complete machine detection device further comprises a second printer and a second mechanical arm, and the second printer and the second mechanical arm are both connected with the second computer;

the second computer is further configured to: if the second test result is failure, printing second related test data by the second printer so that a person can attach the paper printed with the second related test data to the air conditioner indoor unit, and controlling the second mechanical arm so that the second mechanical arm can take out the air conditioner indoor unit attached with the paper to a second preset area; the second relevant test data comprises that the control result is not received within a preset time length, and the control result is that the air conditioner internal unit fails to start and/or does not enter an air supply mode.

7. The system of claim 6, wherein the power supply assembly line is a circular kinematic line body and is configured to transport the air conditioner indoor unit from an entrance gateway to an exit gateway; the second code scanning gun and the second computer are arranged between the entrance gateway and the exit gateway; the second printer and the second mechanical arm are both arranged at the gateway;

the second code scanning gun is specifically used for: scanning the two-dimensional code on the body of the air conditioner indoor unit entering the entrance, and sending the two-dimensional code to the second computer so that the second computer can test the air conditioner indoor unit; and scanning the two-dimensional code transported to the air conditioner indoor unit of the exit, and sending the two-dimensional code to the second computer, so that the second computer obtains a corresponding second test result according to the current two-dimensional code, and displays the second test result on the display interface.

8. The system of claim 7, wherein the detection system further comprises a monitoring computer disposed outside the test line body, the monitoring computer being connected to the second computer and the power supply pipeline, respectively, wherein:

the second computer is further configured to: sending a second test result to the monitoring computer;

the monitoring computer is used for: and displaying the second test results, controlling the power supply assembly line to stop when the second test results of the air conditioner indoor units with the continuously preset number are all failures, and sending reminding information to the second computer so as to remind personnel to check the set parameters of the complete machine detection software on the second computer.

9. The system of claim 8, wherein the detection system further comprises a data storage cloud platform; the first computer is further used for sending the first test result to the data storage cloud platform; the second computer is further used for sending the second test result to the data storage cloud platform; the data storage cloud platform is configured to: and performing association processing on the first test result and the second test result according to the identification information of the WiFi module and storing the first test result and the second test result.