CN113140053B - Automatic code scanning test system and method based on annular dynamic line - Google Patents

Abstract

The embodiment of the specification provides an automatic code scanning test system and method based on a ring dynamic line, and the system comprises: the system comprises an annular dynamic line body, a code scanning device, a code scanning tool, a test line computer and a WiFi production test computer, wherein the annular dynamic line body, the code scanning device, the code scanning tool, the test line computer and the WiFi production test computer are arranged on one station; the annular dynamic line body is used for transporting a product to be tested to a pass inspection port from a pass entrance; the code scanning equipment is respectively connected with the code scanning tool and the WiFi production computer; the code scanning tool is respectively connected with the test line computer and the WiFi production computer; the test line computer is used for monitoring preset parameters of the product to be tested when the first identification information is received; the WiFi production computer is used for carrying out WiFi test on a product to be tested containing the intelligent module, storing a WiFi test result, searching a corresponding WiFi test result according to the identification information acquired by the code scanning equipment when the product to be tested moves to a gate, and displaying the WiFi test result. Compared with the prior art, the detection efficiency can be improved.

Description

Automatic code scanning test system and method based on annular dynamic line

Technical Field

One or more embodiments of the present disclosure relate to a code scanning test technology for a production line, and more particularly, to an automatic code scanning test system and method based on a ring dynamic line.

Background

The intelligent product needs to perform various tests on a production line, for example, wiFi quality detection and other functional stability detection, and at present, the two tests are performed in series. Especially, in the WiFi detection process, after scanning the code, the device to be detected needs to wait for the test result to come out before the code scanning operation of the next device can be performed, and since the device is in a flowing state in the whole production detection process, it may happen that when the WiFi detection result of one device to be detected has not come out yet, the next device to be detected has reached the code scanning position, and the detection efficiency is affected. Moreover, the code scanning position is different from the device to be tested corresponding to the test result, and the problem of disorder occurs, so that the whole production rhythm is influenced.

Disclosure of Invention

One or more embodiments of the present specification describe a system and method for automated code scanning test based on a dynamic loop line.

According to a first aspect, an automatic code scanning test system based on an annular dynamic line is provided, and the system comprises an annular dynamic line body arranged on a station, a code scanning device, a code scanning tool, a test line computer and a WiFi production test computer, wherein the code scanning device, the code scanning tool and the test line computer are all arranged between a gateway and a gateway inspection of the annular dynamic line body, and the system comprises:

the annular dynamic line body is used for transporting a product to be tested from the entry gateway to the inspection gateway;

the code scanning equipment is respectively connected with the code scanning tool and the WiFi production computer and is used for acquiring identification information of the product to be detected when the product to be detected enters a gateway, sending the identification information to the code scanning tool, acquiring the identification information of the product to be detected when the product to be detected reaches the gateway inspection, and sending the identification information to the WiFi production computer;

the code scanning tool is respectively connected with the test line computer and the WiFi production computer, and is used for preprocessing the identification information to obtain first identification information suitable for the test line computer and second identification information suitable for the WiFi production computer, sending the first identification information to the test line computer, and sending the second identification information to the WiFi production computer;

the test line computer is used for monitoring preset parameters of the product to be tested when the first identification information is received, and displaying a corresponding monitoring result;

the WiFi production test computer is used for displaying the received second identification information, carrying out WiFi test on the product to be tested containing the intelligent module and storing a WiFi test result, and enabling the product to be tested to move to the pass inspection time, searching the corresponding WiFi test result according to the identification information acquired by the code scanning equipment and displaying the WiFi test result.

According to a second aspect, an automatic code scanning test method based on an annular dynamic line is provided, and the method is implemented based on the automatic code scanning test system; the method comprises the following steps:

when a product to be detected enters the entrance of the annular dynamic line body, the code scanning equipment acquires identification information of the product to be detected and sends the identification information to the code scanning tool;

the code scanning tool preprocesses the identification information to obtain first identification information suitable for the test line computer and second identification information suitable for the WiFi production test computer, sends the first identification information to the test line computer, and sends the second identification information to the WiFi production test computer;

the test line computer monitors preset parameters of the product to be tested when receiving the first identification information and displays a corresponding monitoring result;

the WiFi production testing computer displays the second identification information when receiving the second identification information, carries out WiFi test on the product to be tested containing the intelligent module and stores a WiFi test result;

when the product to be tested moves to the inspection gateway, the code scanning device acquires the identification information of the product to be tested, and the WiFi production computer searches the corresponding WiFi test result according to the identification information acquired by the code scanning device and displays the WiFi test result.

The automated code scanning test system and method based on the annular dynamic line provided by the embodiment of the specification have the advantages that the code scanning tool is divided into two paths after preprocessing identification information, the first identification information is sent to the test line computer, the second identification information is sent to the WiFi production computer, the preset parameters of a product to be tested are monitored through the test line computer, accordingly, the preset performance is monitored, meanwhile, the WiFi production computer is used for carrying out WiFi test on the product to be tested containing the intelligent module, and the intelligent module is tested. Compared with the prior art, the method can save time and improve detection efficiency. Moreover, when the product to be tested needs a certain time from the gateway to be transmitted to the gateway for checking, the product to be tested scans the identification information from the gateway so that the test line computer and the WiFi production computer can be tested in parallel, and when the product to be tested is transmitted to the gateway for checking, the identification information is scanned again, so that the test result can be obtained, and the problem of disorder of the test result can be avoided. In the process, the WiFi production computer has enough time to test, and a plurality of products to be tested can enter the annular dynamic line body, so that the WiFi production computer can test a plurality of products to be tested in sequence, and the test efficiency is further improved.

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 following description 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 diagram of an embodiment of an automated code-scanning test system based on a dynamic circular line;

FIG. 2 is a schematic diagram illustrating a distribution of a portion of devices in an automated code scanning test system based on a circular dynamic line according to an embodiment of the present disclosure;

FIG. 3 is a flow chart illustrating a method for automated code-scanning test based on dynamic circular lines in one embodiment of the present disclosure;

reference numerals: an annular dynamic line body-1; code scanning equipment-2; a code scanning tool-3; test line computer-4; wiFi production computer-5; a handheld code scanning gun-21; entry-11; a pass-12 is checked; a first interface-51; a second interface-52; a router-6.

Detailed Description

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

As shown in fig. 1 and 2, an embodiment of the present application provides an automatic code scanning test system based on an annular dynamic line, the system includes an annular dynamic line body 1, a code scanning device 2, a code scanning tool 3, a test line computer 4, and a WiFi production test computer 5, which are disposed on a station, the code scanning device 2, the code scanning tool 3, and the test line computer 4 are all disposed between a gateway 11 and a gateway 12 of the annular dynamic line body 1, wherein:

the annular dynamic line body 1 is used for transporting a product to be tested from the entry gateway 11 to the inspection gateway 12;

the code scanning device 2 is respectively connected with the code scanning tool 3 and the WiFi production testing computer 5, and is used for acquiring identification information of the product to be tested when the product to be tested enters a gateway 11, sending the identification information to the code scanning tool 3, acquiring identification information of the product to be tested when the product to be tested passes to the inspection gateway 12, and sending the identification information to the WiFi production testing computer 5;

the code scanning tool 3 is respectively connected with the test line computer 4 and the WiFi production test computer 5, and is used for preprocessing the identification information to obtain first identification information suitable for the test line computer 4 and second identification information suitable for the WiFi production test computer 5, sending the first identification information to the test line computer 4, and sending the second identification information to the WiFi production test computer 5;

the test line computer 4 is used for monitoring preset parameters of the product to be tested when the first identification information is received, and displaying a corresponding monitoring result;

the WiFi production computer 5 is used for displaying the received second identification information, conducting WiFi test on the product to be tested containing the intelligent module and storing a WiFi test result, and enabling the product to be tested to move to the inspection gateway 12, searching the corresponding WiFi test result according to the identification information acquired by the code scanning device 2 and displaying the WiFi test result.

The annular dynamic line body 1 is provided with a gateway 11 and a gateway inspection port 12, a product to be tested enters a test flow from the gateway 11, the test flow is finished from the gateway inspection port 12, and the next link is entered. As shown in fig. 2, the annular kinematic line 1 is a U-shaped transmission device, and transports a product to be tested from the entrance 11 to the inspection 12.

It can be understood that, since the scanning operation and the displaying of the identification information obtained by scanning are required to be performed at the gateway 11, and the scanning operation and the displaying of the found WiFi test result are required to be performed at the gateway 12, as shown in fig. 2, the code scanning device 2, the code scanning tool 3, and the test line computer 4 are required to be disposed between the gateway 11 and the gateway 12 of the annular dynamic line body 1. The test line computer 4 can be arranged between the entrance 11 and the pass inspection 12, or can be arranged at other positions.

Wherein the first identification information may include the station code and the product sequence code; the station code is a serial number of the products to be tested in all products on the same production line, and the station number of the products to be tested in the production line body, for example, one production line can contain 100 products to be tested, and 0 to 99 can be used as the station code to be sequentially distributed to the 100 products to be tested. The product serial code is the unique identifier of the product to be detected, the product serial code is an SN code, and each product to be detected has the unique SN code, so that the SN code is used for identifying the whole product to be detected.

The system that this application embodiment provided can be used for the detection to intelligent product, also can be used for the detection of non-intelligent product, needs test wire computer 4 to carry out parameter monitoring to intelligent product, also needs wiFi to produce and surveys computer 5 and carry out the wiFi test. For the non-intelligent product, because the non-intelligent product does not contain an intelligent module, only the test line computer 4 is needed to carry out parameter monitoring, and the WiFi production test computer 5 is not needed to carry out WiFi test. Each smart module has a unique identifier, i.e. a physical address code, i.e. a MAC code.

The second identification information of the product to be tested containing the intelligent module can include the station code, the product sequence code and the physical address code, and the second identification information of the product to be tested not containing the intelligent module can include the station code and the product sequence code, and the physical address code is the unique identification of the intelligent module contained in the product to be tested. The WiFi production testing computer 5 can determine whether the product to be tested is an intelligent product according to whether the received second identification information contains a physical address code.

In specific implementation, in order to acquire the station code, the product sequence code, and the physical address code, the code scanning device 2 may include: first automatic sweep a yard camera, the sign indicating number camera is swept to the second automation and handheld yard rifle 21 of sweeping.

The first automatic code scanning camera is used for automatically acquiring the station code of the product to be detected when the product to be detected enters the gateway 11.

The second automatic code scanning camera is used for automatically acquiring a product sequence code of a product to be detected which does not contain the intelligent module or a product sequence code and a physical address code of the product to be detected which contains the intelligent module when the product to be detected enters the gateway 11.

The handheld code scanning gun 21 is configured to acquire a product serial number and a station number of a product to be detected that does not include an intelligent module when the product to be detected enters the gateway 11 and the first automatic code scanning camera and/or the second automatic code scanning camera fails to acquire the product serial number and the station number, or acquire the station number, the product serial number, and a physical address code of the product to be detected that includes the intelligent module; the handheld code scanning gun 21 is further configured to obtain a product serial code of the product to be tested when the product to be tested moves to the inspection gateway 12.

That is to say, when the product to be tested is at the entrance 11, the first automatic code scanning camera is used to obtain the station code of the product to be tested, the second automatic code scanning camera is used to obtain the product sequence code and the physical address code of the product to be tested, if there is no physical address code, only the product sequence code of the product to be tested needs to be obtained, and it is also indicated that the product to be tested is a non-intelligent product. If the first automatic code scanning camera and the second automatic code scanning camera fail to acquire, scanning the product to be detected by adopting a handheld code scanning gun 21 to acquire the product serial code, the station code and the physical address code, and if no physical address code exists, indicating that the product to be detected is a non-intelligent product, and only acquiring the station code and the product serial code.

In addition, when the product to be tested is transported to the pass gate 12, the handheld code scanning gun 21 can be used for scanning the product to be tested so as to obtain the product serial code of the product to be tested, and since the intelligent product and the non-intelligent product both have the product serial codes, the WiFi test results of two types of products can be obtained through the product serial codes. Because the WiFi test is not carried out on the non-intelligent product, if the tested non-intelligent product is tested, the obtained test result is as follows: and was not tested. Therefore, if the test result is not tested, the product to be tested can be known to be a non-intelligent product. If the smart product is tested, the test results may include test success, test failure, and of course there is also a case: and (3) during testing, the test result of one product to be tested on the surface is not obtained, and the subsequent equipment to be tested cannot be tested.

That is to say, first automatic sweep a yard camera the second is automatic sweep a yard camera and handheld scanning rifle and be connected with the scanning frock, handheld scanning rifle still with wiFi survey computer 5 and be connected.

When concrete implementation, sweep a yard equipment 2 and can be connected with sweeping a yard frock 3 through serial ports 232, sweep a yard frock 3 and can be connected with test wire computer 4 through serial ports 232, sweep a yard frock 3 and also can be connected with wiFi production computer 5 through serial ports 232. Of course, other connection modes can also be adopted, for example, the code scanning device 2 adopts a wireless code scanning device 2, so that the code scanning device 2 and the code scanning tool 3 are in a wireless connection mode.

Wherein, because the required identification information of different test computers is different, consequently sweep a yard frock 3 and carry out different preliminary treatment to the identification information who receives: because the test line computer 4 does not carry out the test of intelligent object, consequently need not the physical address code, so sweep the physical address code filtration in the sign information of sign indicating number frock 3 to obtain first sign information, and send first sign information to the test line computer 4. And aiming at the WiFi production testing computer 5, the code scanning tool 3 binds the station code, the product sequence code and the physical address code and then sends the bound station code, the product sequence code and the physical address code as second identification information to the WiFi production testing computer 5, and if the identification information does not contain the physical address code, the code scanning tool 3 can bind the station code and the product sequence code and then send the bound station code and the bound product sequence code as second identification information to the WiFi production testing computer 5.

When the code scanning tool 3 is specifically implemented, the code scanning tool needs to have certain information processing capacity, and can be specifically realized by adopting a single chip microcomputer.

When the method is specifically implemented, a product to be detected enters the annular dynamic line body 1, then the product to be detected is electrified, and a plurality of sensors are arranged on stations and used for detecting a plurality of parameters of the product to be detected, so that the computer 4 of the test line can obtain the plurality of parameters from the sensors, and then whether certain or certain performance indexes of equipment to be detected are qualified and stable is analyzed according to the plurality of parameters, and therefore the monitoring of the product to be detected is realized. The performance index does not include the performance index of the intelligent module, so that the performance index of the software or hardware other than the intelligent module is monitored by the test line computer 4.

In specific implementation, in order to assist the test of the WiFi production computer 5, a router 6 may be provided, where the router 6 is used to establish a local area network with the WiFi production computer 5 and the product to be tested. For example, after the device to be tested is powered on, the router 6 is actively connected, the signal intensity of the router 6 is obtained, and meanwhile, the WiFi production testing computer 5 is also connected to the router 6, so that the WiFi production testing computer 5 and the device to be tested are in the same local area network, and UDP (User Datagram Protocol ) data communication can be performed.

In specific implementation, the WiFi generation computer 5 is configured to send broadcast test data carrying the product sequence code and the physical address code in the local area network when receiving the second identification information; the product to be tested is used for matching the product sequence code and the physical address code in the broadcast test data with the product sequence code and the physical address code of the product to be tested when the broadcast test data is received, carrying out WiFi test according to the broadcast test data when the matching is successful, and feeding back a WiFi test result to the WiFi production computer 5 in a unicast mode.

The broadcasting test data sent by the WiFi production test computer 5 carries a product sequence code and a physical address code, when a product to be tested receives the broadcasting test data, the product sequence code and the physical address code in the broadcasting test data are matched with the product sequence code and the physical address code of the product to be tested, and if the product sequence code and the physical address code in the broadcasting test data are consistent with the product sequence code and the physical address code of the product to be tested, the product to be tested is matched, so that the intelligent module can be tested by the product to be tested according to the test information in the broadcasting test data.

The broadcast test data is data sent by the WiFi production computer 5 in a broadcast mode, and a certain receiving product is not specified. And the WiFi test result is fed back to the WiFi production test computer 5 by the product to be tested in a unicast mode, namely, the WiFi test result is only sent to the WiFi production test computer 5 and is not sent to other equipment.

As shown in fig. 2, information obtained by entering the customs clearance code is displayed on the first interface 51, and test information found during customs inspection is displayed on the second interface 52.

The application provides a yard test system is swept in automation based on annular dynamic line, sweep a yard frock and divide into two the tunnel after carrying out the preliminary treatment to identification information, first identification information sends to the test wire computer, second identification information sends to wiFi production computer, realize monitoring the preset parameter of the product that awaits measuring through the test wire computer, thereby realize the monitoring to predetermineeing the performance, simultaneously through wiFi production computer carry out the wiFi test to the product that awaits measuring that contains intelligent object, the realization is to intelligent object's test. Compared with the prior art, the method can save time and improve detection efficiency. Moreover, need certain time when the product that awaits measuring from going into the pass and transmitting to examining the pass, the product that awaits measuring scans identification information so that test line computer and wiFi produce the test computer parallel test from going into the pass, scan identification information once more when the product that awaits measuring transports to examining the pass, just can obtain the test result, the wiFi produces the test computer at this in-process has more abundant time to test, and can make a plurality of products that await measuring get into annular dynamic line body, make the wiFi produce the test computer and test a plurality of products that await measuring in proper order, further improved efficiency of software testing.

The embodiment of the present application further provides an automatic code scanning test method based on a ring dynamic line, where the method is implemented based on the above automatic code scanning test system, and as shown in fig. 3, the method may include:

s110, when a product to be detected enters an entrance of the annular dynamic line body, the code scanning equipment acquires identification information of the product to be detected and sends the identification information to the code scanning tool;

the identification information of the device to be tested including the intelligent module may include a station code, a product sequence code and a physical address code, and the identification information of the device to be tested not including the intelligent module may include a station code and a product sequence code.

In specific implementation, in order to obtain the identification information, the code scanning device may include: a yard camera is swept to first automation, a yard camera is swept to the second automation and handheld yard rifle of sweeping. The first automatic code scanning camera is used for acquiring a station code of a product to be detected when the product to be detected enters a gateway. The second automatic code scanning camera is used for automatically acquiring a product sequence code of a product to be detected which does not comprise an intelligent module when the product to be detected enters a gateway or automatically acquiring a product sequence code and a physical address code of the product to be detected which comprises the intelligent module. The handheld code scanning gun is used for scanning the code camera and/or the code camera is scanned in the first automation when the product to be detected enters the gate, and the second automation is scanned and is obtained the product sequence code and the station code of the product to be detected which do not contain the intelligent module when the code camera is failed, or the station code, the product sequence code and the physical address code of the product to be detected which contain the intelligent module are obtained. Certainly, handheld yard rifle of sweeping can also be in the product to be measured moves to when examining the pass, acquire the product serial number of product to be measured.

That is to say, when a product to be detected enters a gateway, the first automatic code scanning camera is used for acquiring the station code of the product to be detected, the second automatic code scanning camera is used for acquiring the product sequence code and the physical address code of the product to be detected, if no physical address code exists, only the product sequence code of the product to be detected needs to be acquired, and the product to be detected is also indicated to be a non-intelligent product. If the first automatic code scanning camera and the second automatic code scanning camera fail to acquire, a handheld code scanning gun is adopted to scan a product to be detected so as to acquire the product sequence code, the station code and the physical address code, if no physical address code exists, the product to be detected is a non-intelligent product, and only the station code and the product sequence code need to be acquired.

S120, preprocessing the identification information by the code scanning tool to obtain first identification information suitable for the test line computer and second identification information suitable for the WiFi production test computer, sending the first identification information to the test line computer, and sending the second identification information to the WiFi production test computer;

wherein the first identification information may include the station code and the product serial code; the station codes are serial numbers of all products to be tested on the same production line, and station numbers of the products to be tested in the production line. And the product sequence code is the unique identifier of the product to be detected.

The second identification information of the product to be tested containing the intelligent module can include the station code, the product sequence code and the physical address code, and the second identification information of the product to be tested not containing the intelligent module can include the station code and the product sequence code, and the physical address code is the unique identification of the intelligent module contained in the product to be tested. The WiFi production computer can judge whether the product to be tested is an intelligent product according to the fact whether the received second identification information contains the physical address code.

S130, the test line computer monitors preset parameters of the product to be tested when receiving the first identification information, and displays a corresponding monitoring result;

s140, the WiFi production testing computer displays the second identification information when receiving the second identification information, carries out WiFi test on the product to be tested containing the intelligent module and stores a WiFi test result;

in specific implementation, after the WiFi production computer receives the second identification information and before performing a WiFi test on the product to be tested, the method further includes:

and judging whether the second identification information contains a physical address code, if so, executing a WiFi test step on the product to be tested.

That is, only when the second identification information includes the physical address code, the WiFi production test computer performs the following test steps. And when the second identification information does not contain the physical address information, the product to be tested is not an intelligent product, and at the moment, the WiFi production computer does not need to carry out WiFi test on the product to be tested.

S150, when the product to be tested moves to the inspection gateway, the code scanning device acquires the identification information of the product to be tested, and the WiFi production computer searches a corresponding WiFi test result according to the identification information acquired by the code scanning device and displays the WiFi test result.

In a specific real-time, the WiFi production computer may be provided with two interfaces, one interface being used for displaying the received second identification information, and the second interface being used for displaying the test result.

In specific implementation, when a non-intelligent product is transported to the inspection gateway, a product sequence code of the product to be tested is obtained through the handheld scanning gun, then the product sequence code is sent to the WiFi production testing computer, the WiFi production testing computer searches according to the product sequence code, a corresponding testing result cannot be searched, and therefore 'untested' is displayed on an interface of the WiFi production testing computer. Therefore, if the WiFi production test computer displays 'no test', the test product can be known to be a non-intelligent product. That is to say, the method provided in the embodiment of the present application may further include: and if the corresponding WiFi test result is not found by the WiFi production computer according to the identification information acquired by the code scanning equipment, displaying untested prompt information.

It will be appreciated that for smart products, the test results include test success and test failure. Whether or not it is a smart product, there is also a case: and when the WiFi production testing computer receives the second identification information, if the prompt information which is being detected is displayed on the interface of the WiFi production testing computer, the received second identification information is stored in the WiFi production testing computer, and the WiFi testing is sequentially carried out on the to-be-tested equipment corresponding to the stored second identification information after the last to-be-tested equipment is tested.

That is to say, when a new product to be tested enters the gateway, after the processing of the scanning device and the scanning tool, the WiFi production computer needs to judge whether the second identification information contains the physical address code after receiving the second identification information, and then determines whether to execute the subsequent testing step. But at this moment, the prompt message of testing is displayed on the interface of the WiFi production testing computer, that is, at this moment, the last product to be tested still exists on the annular dynamic line body, and the product to be tested is not yet tested. The judgment of whether the second identification information of the new product to be tested contains the physical address code or not and the execution of the subsequent test process need to wait, and at the moment, the second identification information of the new product to be tested can be stored in the WiFi production test computer firstly. The same applies if a new product to be tested is entered at the gateway. Therefore, the WiFi production test computer can possibly store second identification information of a plurality of products to be tested, and subsequently, the stored second identification information needs to be sequentially judged and WiFi test needs to be carried out on the equipment to be tested.

In order to realize real-time broadcasting in the prior art, the test of the next product to be tested can be carried out only after the last product to be tested is tested and a test result is obtained. However, in this application, when the product to be tested needs a certain time from entering the gateway to being tested, the product to be tested scans the identification information from entering the gateway so that the test line computer and the WiFi production computer can be tested in parallel, when the product to be tested is transported to the gateway to be tested, the identification information is scanned again, the test result can be obtained, the delayed report is realized, and a plurality of products to be tested can enter the annular dynamic line body, the problem that the production rhythm is reduced due to overlong average test time of a single product to be tested is reduced, and the test efficiency is greatly improved.

In particular implementations, a router may be placed in the vicinity of the portal to establish a local area network. After the equipment to be tested is powered on, the router is actively connected, the signal intensity of the router is obtained, and meanwhile, the WiFi production testing computer is also connected to the router, so that the WiFi production testing computer and the equipment to be tested are located in the same local area network, and UDP (User Datagram Protocol) data communication can be carried out. The specific communication process may include:

the WiFi production test computer sends broadcast test data carrying the product sequence code and the physical address code in the local area network; and when the product to be tested receives the broadcast test data, matching the product sequence code and the physical address code in the broadcast test data with the product sequence code and the physical address code of the product to be tested, performing WiFi test according to the broadcast test data when the matching is successful, and feeding back a WiFi test result to the WiFi production test computer in a unicast mode.

Here, through setting up the LAN, be convenient for realize that wiFi produces the test procedure of surveying the computer.

In specific implementation, the method provided in the embodiment of the present application may further include:

and the WiFi production testing computer uploads the WiFi testing result of each product to be tested in a preset period to the cloud for storage.

Wherein the preset period can be set as required, for example, one day, one week, etc.

Here, the WiFi production testing computer uploads the WiFi test results of each product to be tested in a preset period to the cloud end, so that the WiFi test results can be stored for a long time, and the WiFi test results can be conveniently called when needed.

All 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 other embodiments. In particular, for the apparatus embodiment, since it is substantially similar to the method embodiment, the description is relatively simple, and reference may be made to the partial description of the method embodiment for relevant points.

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 (9)

1. The utility model provides a yard test system is swept in automation based on annular developments line which characterized in that, including set up the annular developments line body on a station, sweep a yard equipment, sweep a yard frock, test line computer and wiFi and produce and survey the computer, sweep a yard equipment sweep a yard frock with the test line computer all sets up between the entrance way and the pass inspection mouth of the annular developments line body, wherein:

the annular dynamic line body is used for transporting a product to be tested from the entry gateway to the inspection gateway;

the code scanning equipment is respectively connected with the code scanning tool and the WiFi production computer and is used for acquiring identification information of the product to be detected when the product to be detected enters a gateway, sending the identification information to the code scanning tool, acquiring the identification information of the product to be detected when the product to be detected reaches the gateway inspection, and sending the identification information to the WiFi production computer;

the code scanning tool is respectively connected with the test line computer and the WiFi production computer, and is used for preprocessing the identification information to obtain first identification information suitable for the test line computer and second identification information suitable for the WiFi production computer, sending the first identification information to the test line computer, and sending the second identification information to the WiFi production computer;

the test line computer is used for monitoring preset parameters of the product to be tested when the first identification information is received, and displaying a corresponding monitoring result;

the WiFi production testing computer is used for displaying the received second identification information, carrying out WiFi test on the product to be tested containing the intelligent module and storing a WiFi test result, and searching a corresponding WiFi test result according to the identification information obtained by the code scanning equipment when the product to be tested moves to the inspection gateway and displaying the WiFi test result;

the first identification information comprises a station code and a product sequence code; the station codes are serial numbers of all products to be tested on the same production line; the product sequence code is the unique identification of the product to be detected;

the second identification information of the product to be tested, which contains the intelligent module, comprises the station code, the product serial code and the physical address code, and the second identification information of the product to be tested, which does not contain the intelligent module, comprises the station code and the product serial code; and the physical address code is the unique identifier of the intelligent module contained in the product to be tested.

2. The system of claim 1, wherein the code scanning device comprises: a yard camera is swept to first automation, the yard camera is swept automatically to the second and handheld yard rifle of sweeping, wherein:

the first automatic code scanning camera is used for automatically acquiring a station code of the product to be detected when the product to be detected enters a gateway;

the second automatic code scanning camera is used for automatically acquiring a product sequence code of a product to be detected without the intelligent module or automatically acquiring a product sequence code and a physical address code of the product to be detected with the intelligent module when the product to be detected enters a gateway;

the handheld code scanning gun is used for acquiring a product sequence code and a station code of a product to be detected which does not comprise an intelligent module when the product to be detected enters a gateway and the first automatic code scanning camera and/or the second automatic code scanning camera fails to acquire the product sequence code and the station code, or acquiring the station code, the product sequence code and a physical address code of the product to be detected which comprises the intelligent module; the handheld code scanning gun is further used for acquiring the product serial code of the product to be detected when the product to be detected moves to the inspection gateway.

3. The system of claim 1, further comprising a router configured to establish a local area network with the WiFi production test computer and the product under test;

the WiFi production computer is used for sending broadcast test data carrying the product sequence code and the physical address code in the local area network when receiving the second identification information;

and the product to be tested is used for matching the product sequence code and the physical address code in the broadcast test data with the product sequence code and the physical address code of the product to be tested when the broadcast test data is received, performing WiFi test according to the broadcast test data when the matching is successful, and feeding back a WiFi test result to the WiFi production test computer in a unicast mode.

4. An automatic code scanning test method based on a ring dynamic line, which is implemented based on the automatic code scanning test system of claim 1; the method comprises the following steps:

when a product to be detected enters the entrance of the annular dynamic line body, the code scanning equipment acquires identification information of the product to be detected and sends the identification information to the code scanning tool;

the code scanning tool preprocesses the identification information to obtain first identification information suitable for the test line computer and second identification information suitable for the WiFi production test computer, sends the first identification information to the test line computer, and sends the second identification information to the WiFi production test computer;

the test line computer monitors preset parameters of the product to be tested when receiving the first identification information and displays a corresponding monitoring result;

the WiFi production testing computer displays the second identification information when receiving the second identification information, carries out WiFi test on the product to be tested containing the intelligent module and stores a WiFi test result;

when the product to be tested moves to the inspection gateway, the code scanning device acquires the identification information of the product to be tested, and the WiFi production computer searches the corresponding WiFi test result according to the identification information acquired by the code scanning device and displays the WiFi test result.

5. The method of claim 4, wherein the WiFi production test computer, after receiving the second identification information and before performing the WiFi test on the product under test, further comprises:

judging whether the second identification information contains a physical address code;

and if so, executing a WiFi test step on the product to be tested.

6. The method of claim 4, further comprising:

and if the WiFi production computer does not find the corresponding WiFi test result according to the identification information acquired by the code scanning equipment, displaying untested prompt information.

7. The method of claim 4, further comprising:

and when the WiFi production testing computer receives the second identification information, if the prompt information which is being detected is displayed on the interface of the WiFi production testing computer, the received second identification information is stored in the WiFi production testing computer, and the WiFi testing is sequentially carried out on the to-be-tested equipment corresponding to the stored second identification information after the last to-be-tested equipment is tested.

8. The method of claim 4, wherein the automated code-scanning test system further comprises a router for establishing a local area network with the WiFi production test computer and the product under test; the WiFi production computer is used for sending broadcast test data carrying the product sequence code and the physical address code in the local area network when receiving the second identification information; the product to be tested is used for matching the product sequence code and the physical address code in the broadcast test data with the product sequence code and the physical address code of the product to be tested when the broadcast test data is received, carrying out WiFi test according to the broadcast test data when the matching is successful, and feeding back a WiFi test result to the WiFi production test computer in a unicast mode;

the wiFi is produced and is surveyed computer and to containing intelligent module the product that awaits measuring carries out the wiFi test, include:

the WiFi production test computer sends broadcast test data carrying the product sequence code and the physical address code in the local area network;

and when the product to be tested receives the broadcast test data, matching the product sequence code and the physical address code in the broadcast test data with the product sequence code and the physical address code of the product to be tested, performing WiFi test according to the broadcast test data when the matching is successful, and feeding back a WiFi test result to the WiFi production test computer in a unicast mode.

9. The method of claim 4, further comprising:

and the WiFi production testing computer uploads the WiFi testing result of each product to be tested in a preset period to a cloud for storage.

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