CN112512036B - Automatic number writing and coupling test equipment and method - Google Patents

Abstract

The invention provides automatic number writing and coupling test equipment and a method, wherein the method comprises the following steps: a device body; the object placing table is arranged on the device body and is used for placing a terminal to be tested, on which a bar code is attached; the scanning device is arranged on the device body and used for scanning the bar code, and the scanning device is arranged opposite to the object placing table; and the testing device is arranged on the device body and used for writing numbers and coupling testing. The invention realizes automatic number writing and coupling test through one procedure, saves redundant labor consumption, is simple and easy to operate, and ensures the efficiency of coupling test and number writing operation.

Description

Automatic number writing and coupling test equipment and method

Technical Field

The invention relates to the technical field of computers, in particular to automatic number writing and coupling testing equipment and method.

Background

When manufacturing a mobile device, coupling test and number writing operation are required to be performed on the mobile device through a wireless interface of the mobile device so as to test the power of a signal transmitted by the mobile device, the sensitivity of a received signal and the like, and meanwhile, the IMEI number, the MAC address of WIFI, the Bluetooth address, the SN and the like are written into the mobile device.

When the coupling test or the number writing operation is executed, the coupling test is carried out on the mobile device through coupling test equipment on the coupling test station, and the number writing operation is carried out on the mobile terminal through the number writing equipment; when testing or writing, the corresponding instruction is required to be sent to the mobile terminal through the USB interface of the mobile terminal so as to complete testing and writing.

The problems in the prior art are as follows: the coupling test station and the number writing station are two independent stations, and are operated independently, so that redundant manual consumption is caused, and the coupling test station and the number writing station are complex in operation and easy to make mistakes, so that the coupling test and the number writing are low in efficiency.

Accordingly, the prior art has drawbacks and needs to be improved and developed.

Disclosure of Invention

The invention aims to solve the technical problems of the prior art, and provides automatic number writing and coupling test equipment and method, which aim to solve the problems of low efficiency of coupling test or number writing operation on a mobile device in the prior art.

The technical scheme adopted for solving the technical problems is as follows:

an automatic number writing and coupling test device, comprising:

a device body;

the object placing table is arranged on the device body and is used for placing a terminal to be tested, on which a bar code is attached;

the scanning device is arranged on the device body and used for scanning the bar code, and the scanning device is arranged opposite to the object placing table;

and the testing device is arranged on the device body and used for writing numbers and coupling testing.

Further, the device body is further provided with a USB plug-in mechanism, the USB plug-in mechanism comprises a movable plug row and a connecting wire plugged on the movable plug row, and a plug of the connecting wire is arranged opposite to a USB port of the terminal to be tested.

Further, the device body is further provided with a mechanical arm, and the scanning device is arranged on a guide rail of the mechanical arm in a sliding manner.

Further, the object placing table comprises a region to be scanned and a working region, and the working region is close to one side of the scanning device and one side of the USB plug-in mechanism;

the device body is also provided with a rotating mechanism which is used for rotating the object placing table.

Further, a shielding box is further arranged on the device body, and the shielding box comprises a plurality of baffles for shielding each terminal to be tested.

Further, a manipulator is further arranged on the device body and used for clamping the terminal to be tested to the appointed position of the object placing table.

The invention also provides an automatic number writing and coupling test method based on the automatic number writing and coupling test equipment, which comprises the following steps:

controlling the scanning device to scan the bar code, and calling production data from a database according to the scanned bar code information and downloading the production data;

when a coupling test instruction is sent to the terminal to be tested, controlling the test device to perform coupling test on the terminal to be tested;

when a number writing instruction is sent to the terminal to be tested, the testing device is controlled to write the production data into the terminal to be tested.

Further, after the scanning device is controlled to scan the bar code and the production data is called from the database according to the scanned bar code information and downloaded, and before the coupling test and the number writing, the method further comprises the following steps:

controlling a USB plug-in mechanism to connect a plug of a connecting wire with a USB port of the terminal to be tested;

and controlling the testing device to send a debugging instruction to the terminal to be tested so as to adjust the terminal to be tested to be in a factory testing mode.

Further, when the coupling test instruction is sent to the terminal to be tested, the control device performs coupling test on the terminal to be tested, and then the method further includes:

testing the power emitted by the terminal to be tested through coupling test, and comparing the power with the standard power in the testing device;

if the two are matched, the coupling test is qualified;

if the coupling test fails, the control manipulator clamps the unqualified products failing the coupling test into the unqualified product collecting box.

Further, the scanning device is controlled to scan the bar code, and production data is called from a database and downloaded according to the scanned bar code information, and then the method further comprises the following steps:

and controlling the rotating mechanism to rotate the object placing table, and replacing the terminals to be tested in the area to be scanned and the working area on the object placing table.

The invention provides automatic number writing and coupling test equipment and a method, wherein the method comprises the following steps: a device body; the object placing table is arranged on the device body and is used for placing a terminal to be tested, on which a bar code is attached; the scanning device is arranged on the device body and used for scanning the bar code, and the scanning device is arranged opposite to the object placing table; and the testing device is arranged on the device body and used for writing numbers and coupling testing. The invention realizes automatic number writing and coupling test through one procedure, saves redundant labor consumption, is simple and easy to operate, and ensures the efficiency of coupling test and number writing operation.

Drawings

FIG. 1 is a block diagram of a preferred embodiment of an automatic number writing and coupling test apparatus according to the present invention.

FIG. 2 is a flow chart of a preferred embodiment of the automatic number writing and coupling test method of the present invention.

FIG. 3 is a flowchart showing steps following step S100 in a preferred embodiment of the automatic number writing and coupling test method of the present invention.

FIG. 4 is a flowchart of the method for automatically writing numbers and coupling test according to the preferred embodiment of the present invention, which is shown as step S100.

FIG. 5 is a flowchart of the method for automatically writing numbers and coupling test according to the preferred embodiment of the present invention after step S200.

FIG. 6 is a flow chart of the addition of a shield can and a rotating mechanism in a preferred embodiment of the auto-writing and coupling test method of the present invention.

Labeling and describing: 101. a device body; 102. a storage table; 103. a scanning device; 104. a testing device; 105. a mechanical arm; 106. a USB plug-in mechanism; 107. a rotation mechanism; 108. a support base; 109. touch display screen, 110, computer.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clear and clear, the present invention will be further described in detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Referring to fig. 1, the present invention provides an automatic number writing and coupling test device, which includes: an apparatus body 101, a placement table 102, a scanning apparatus 103, and a testing apparatus 104 provided on the apparatus body 101; the object placing table 102 is used for placing a terminal to be tested, which is attached with a bar code; the scanning device 103 is arranged opposite to the object placing table 102 and is used for scanning the bar code; the testing device 104 is used for performing number writing and coupling testing on the terminal to be tested.

Specifically, the present invention designs the testing device 104, where the testing device 104 can load the number writing software and the coupling testing software, and the number writing operation or the coupling testing operation of the terminal to be tested can be implemented by sending the number writing instruction or the coupling testing instruction by the testing device 104 respectively. When coupling test and number writing are carried out, firstly, attaching a bar code corresponding to each terminal to be tested to the terminal to be tested, and then placing the terminal to be tested attached with the bar code on the object placing table 102; the bar code information of the corresponding terminal to be tested can be read by scanning the bar code through the scanning device 103, so that corresponding production data is obtained from a database and written into the terminal to be tested through the testing device 104; and when the coupling test is performed, coupling test instructions are sent to the terminal to be tested through coupling test software on the test device 104, and then test feedback results are returned to the test device 104 so as to complete coupling test operation.

In a specific embodiment, the automatic number writing and coupling test device further includes a USB plugging mechanism 106, the USB plugging mechanism 106 is disposed on the device body 101, the USB plugging mechanism 106 includes a movable socket and a connection line, a plurality of holes are disposed on the movable socket, the connection line is respectively inserted in the holes, when the connection line is inserted in the holes, a plug of the connection line is opposite to a USB port of the terminal to be tested, so that when the movable socket is moved, the connection line can be driven to move to the USB port of the terminal to be tested, so as to realize USB connection between the connection line and the terminal to be tested. It can be understood that the connecting wire can be fixedly arranged in the hole of the movable power strip and can also be movably connected to the movable power strip; the positions of the holes on the movable power strip are adapted to the positions of the terminals to be tested on the object placing table 102, so as to be opposite to the USB ports of the terminals to be tested. The setting of the connection line and the hole is not repeated here, as long as the connection line can be plugged into the USB port of the terminal to be tested or pulled out from the USB port.

In a further embodiment, the device body 101 is further provided with a mechanical arm 105, the mechanical arm 105 includes a guide rail parallel to the object placing table 102, and the scanning device 103 is slidably disposed on the guide rail.

Specifically, the scanning device 103 may be a scanning head or a camera, and the scanning device 103 may slide along the guide rail to scan the bar codes attached to the object placing table 102 one by one; of course, the mechanical arm 105 may be configured to drive the scanning device 103 to move, and the specific configuration is not described in detail herein, so long as the scanning device 103 can scan the bar codes one by one, so as to improve the scanning efficiency.

Of course, the scanning device 103 may also be configured as a wide-angle camera to capture a barcode on each terminal to be tested, and then the computer 110 analyzes barcode information by capturing a picture. Correspondingly, the mechanical arm 105 is a fixed bracket.

In a specific embodiment, the device body 101 is further provided with a support base 108, and the mechanical arm 105 and the USB plugging mechanism 106 are both disposed on the support base 108. The movement of the USB plugging mechanism 106 may be driven by a driving source, and the driving source may be disposed on the supporting base 108, and may also be disposed on the USB plugging mechanism 106, so that the USB plugging mechanism 106 moves close to or far away from the terminal to be tested, and the specific setting manner is not described herein, so long as it is capable of implementing the movement of the USB plugging mechanism 106 to the USB port position of the terminal to be tested, so that the terminal to be tested is connected with a connection line, and power on and power off of the terminal to be tested are implemented.

In an embodiment, the object placing table 102 includes a to-be-scanned area and a working area, where the working area is one end near the testing device 104 and the USB plugging mechanism 106, and the working area is used for placing a to-be-tested terminal that needs to be written with a number and tested for coupling; the to-be-scanned area is used for replacing the terminal to be tested, and the state of the terminal to be tested can be that the number writing and the coupling test are completed or about to be performed.

Further, the object placing table 102 is divided into a plurality of bays for placing terminals to be tested, and the positions of the USB ports of the mobile phones are the same as one another, so long as the mobile phones can be placed at the middle positions of the bays, the positions of the USB ports of each mobile phone are the same, and further the mobile power strip can insert connecting wires into the USB ports.

In a specific embodiment, the device body 101 is further provided with a rotating mechanism 107, where the rotating mechanism 107 may be disposed at an upper end or a lower end of the object placing table 102, and is used for rotating the object placing table 102, so as to replace a to-be-tested terminal of the working area and the to-be-scanned area, further replace a to-be-tested terminal needing to be subjected to number writing and coupling testing, and replace a to-be-tested terminal having completed number writing and coupling testing, so as to ensure continuity of procedure operation of number writing and coupling testing, and ensure production efficiency.

In an embodiment, the device body 101 is further provided with a shielding box, where the shielding box includes a plurality of grids and a baffle plate adapted to the grid on the object placing table 102, so as to shield each terminal to be tested from each other, thereby avoiding interference between signals sent to each terminal to be tested when performing number writing and coupling test.

Specifically, the shielding box may be connected to the object placing table 102, and when the USB plug-in mechanism 106 inserts the connection wire into the USB port of the terminal to be tested, the shielding box is controlled to be covered on the object placing table 102, where the shielding box may be opened and closed under the control of the motor, and may also be manually operated by an operator, and a specific operation manner is in the prior art, which is not described herein.

In an embodiment, for facilitating feeding and discharging, a manipulator is further disposed on the device body 101, and the manipulator is driven by a program, so that a terminal to be tested can be clamped in a feeding area and placed on a designated position of the object placing table 102, and a terminal to be tested with a written number and a coupling test can be clamped in a finished product area, thereby reducing corresponding manual operation cost and being beneficial to improving production efficiency.

Specifically, a replaceable sucker or a replaceable gripper can be arranged on the manipulator so as to adapt to terminals to be tested with different specifications; wherein, the manipulator can use UR3 of pride in the prior art, and the sucker or the gripper can be configured as ROBOTIQ 2F-140 or MHM magnetic sucker in the prior art, and the prior art structure is not described herein.

Of course, the device body 101 may further be provided with a touch display screen 109, a computer 110, etc., where the computer 110 is used to control the testing device 104, and the touch display screen 109 is used to display data. The specific configuration and application of the touch display 109 and the computer 110 may be various, as long as the computer 110 can control the testing device 104 and analyze the returned test data through the computer 110, and as long as the touch display 109 can display the data.

Based on the automatic number writing and coupling test equipment, the invention also provides an automatic number writing and coupling test method, as shown in fig. 2, and the automatic number writing and coupling test method comprises the following steps:

step S100, the scanning device 103 is controlled to scan the bar codes, and production data are called from a database and downloaded according to the scanned bar code information.

Specifically, the terminal to be tested, which is attached with the bar code, is placed in the area to be scanned of the object placing table 102, where the bar code may be in the form of IMEI sticker.

The computer 110 then controls the mechanical arm 105 or the scanning device 103 to move so as to scan the bar codes on the terminals to be tested one by one, and sends the scanned bar code information to the computer 110.

The computer 110 queries and downloads the production data corresponding to the barcode information from the database, wherein the production data corresponding to the barcode information refers to the test parameters corresponding to the terminals to be tested of different types, for example, the signal frequency bands, the projects, the chips and the like corresponding to the terminals of different types are tested, the test parameters of the terminals of different types are stored in the database in advance, when the test is required, the corresponding test parameters are queried and called corresponding to the barcode information, and then the test device 104 is configured through the called test parameters, so that the test of the terminals to be tested is completed. The method meets the test requirements of terminals of different types, saves links requiring manual configuration of test parameters in the prior art, and improves the test efficiency.

Step 200, when a coupling test instruction is sent to the terminal to be tested, the testing device 104 is controlled to perform coupling test on the terminal to be tested.

When the coupling test software on the test device 104 is used for carrying out coupling test on the terminal to be tested, the coupling test software is controlled to send out a coupling test instruction, and when the terminal to be tested receives the coupling test instruction, the terminal to be tested sends out a corresponding test signal. Then the testing device 104 receives the testing signal sent by the terminal to be tested, and uploads the testing signal to the database through the computer 110 so as to further process and analyze the testing signal; the coupling test comprises the steps of testing the transmitting power, the receiving sensitivity and the like of the terminal to be tested.

And step S300, when a number writing instruction is sent to the terminal to be tested, controlling the testing device 104 to write the production data into the terminal to be tested.

When the number writing software on the testing device 104 is used for writing the number to the terminal to be tested, the number writing software is controlled to send a number writing instruction, and after the terminal to be tested receives the number writing instruction, the production data downloaded from the computer 110 database is written into the terminal to be tested to finish number writing, wherein the number writing production data comprises: IMEI number, MAC address of WIFI, bluetooth address, SN, etc.

In a specific embodiment, as shown in fig. 3, before the steps S200 and S300, the method further includes:

step S110, controlling the USB plugging mechanism 106 to connect the plug of the connection line with the USB port of the terminal to be tested.

Specifically, before the number writing and coupling test, the connecting wire needs to be connected with the terminal to be tested, so that the terminal to be tested is electrified and started, and then a number writing instruction or a coupling test instruction is sent to the terminal to be tested through the USB port.

Step S111, controlling the testing device 104 to send a debug command to the terminal to be tested, so as to adjust the terminal to be tested to be in a factory test mode.

After the terminal to be tested is started, a debugging instruction needs to be sent to the terminal to be tested through the testing device 104, and after the terminal to be tested receives the debugging instruction, a factory testing mode is entered.

In one embodiment, in order to improve barcode scanning and testing efficiency, as shown in fig. 4, after the step S100, the method further includes:

step S101, controlling the rotating mechanism 107 to rotate the object placing table 103, where the object placing table 103 is provided with terminals to be tested in the area to be scanned and the working area.

Specifically, after the bar code on the terminal to be tested in the working area is scanned, the terminal to be tested in the area to be scanned can be automatically rotated to the working area through the rotating device so as to perform continuous scanning, so that more bar codes can be scanned once again, and the scanning efficiency is improved.

In a specific embodiment, as shown in fig. 5, after the step S200, the method further includes:

step S210, testing the power emitted by the terminal to be tested through coupling test, and comparing the power with the standard power in the testing device 104.

Step S220, if the two are matched, the coupling test is qualified.

And step S230, if the coupling test fails, the control manipulator clamps the unqualified products failing the coupling test into the unqualified product collection box.

Specifically, after the terminal to be tested is tested, the test result is uploaded to the database through the computer 110, and the computer 110 can continuously analyze and process the test data. When analysis processing is carried out, comparing the test data corresponding to the terminal to be tested with the standard data, if the test data is consistent with the standard data, the test is qualified, and the manipulator is controlled to move the terminal to be tested to a finished product area; if the terminal to be tested is not in conformity with the standard data, the test is failed, and the manipulator is controlled to move the terminal to be tested into the defective product collecting box. Automatic sorting is realized, automatic operation of quality inspection procedures is guaranteed, and working efficiency is improved.

Of course, the test data is analyzed, on the one hand, the coupling test result is analyzed, and on the other hand, the number writing result is analyzed, and after the production data is written into the terminal to be tested, the number writing is successful; when the power signal sent by the coupling test accords with the standard power, the coupling test is successful.

In another embodiment, in order to ensure that no interference is formed between the write number and the test instruction sent during the coupling test, a shielding box is provided for shielding signals between adjacent terminals to be tested, so as to ensure the test quality.

Specifically, as shown in fig. 6, after the step S110, the method further includes:

and step S112, controlling the shielding box to be closed.

The shielding box is controlled to be closed through the computer 110 end so as to realize shielding of each terminal to be tested.

Correspondingly, after the steps S220 and S230, the shielding box is controlled to be opened, that is, the step S240 is performed and the shielding box is controlled to be opened.

Further, after the test is completed and the shielding box is opened, the USB plugging mechanism 106 may be controlled to plug the connection wire out of the USB port of the terminal to be tested, that is, step S250 is executed, and the USB plugging mechanism 106 is controlled to plug the connection wire out.

Further, after the connecting wire is pulled out, the terminal to be tested located in the area to be scanned can be tested in a circulating manner, namely, the steps S101 to S300 are continuously executed.

In another embodiment, the shielding box may not be disposed on the device body 101 any more, so long as the testing device 104 is controlled to sequentially perform the number writing and the coupling test on each terminal to be tested, that is, after the number writing and the coupling test on one terminal to be tested are completed, the number writing and the coupling test are performed on the next terminal to be tested, so as to ensure the testing order; or performing number writing and coupling tests on the jump numbers of the plurality of terminals to be tested, for example, performing number writing and coupling tests on two adjacent terminals to be tested respectively.

In summary, according to the automatic number writing and coupling test equipment and method disclosed by the invention, the integrated operation of number writing and coupling test is realized by arranging the test device capable of respectively carrying out number writing and coupling test on the terminals to be tested, so that the number writing and coupling test in the prior art is avoided to be completed in two working procedures, the connecting wire splicing and the debugging links of the terminals to be tested are saved, and meanwhile, the configuration of the corresponding test parameters of the terminals to be tested in different types is avoided, thereby saving the labor investment and improving the working efficiency.

It is to be understood that the invention is not limited in its application to the examples described above, but is capable of modification and variation in light of the above teachings by those skilled in the art, and that all such modifications and variations are intended to be included within the scope of the appended claims.

Claims (6)

1. An automatic number writing and coupling test device, comprising:

the device comprises a device body, wherein a supporting base is arranged on the device body;

the object placing table is arranged on the device body and is used for placing a terminal to be tested, on which a bar code is attached;

the scanning device is arranged on the device body and used for scanning the bar code, and the scanning device is arranged opposite to the object placing table;

the testing device is arranged on the device body and used for writing numbers and coupling tests;

the device body is also provided with a USB plug-in mechanism, the USB plug-in mechanism comprises a movable socket and a connecting wire which is plugged in the movable socket, and a plug of the connecting wire is arranged opposite to a USB port of the terminal to be tested; the USB plug-in mechanism is arranged on the supporting base and moves under the drive of the driving source;

the object placing table comprises a region to be scanned and a working region, and the working region is close to one side of the scanning device and one side of the USB plug-in mechanism;

the device body is also provided with a rotating mechanism which is used for rotating the object placing table so as to realize the replacement of the terminals to be tested in the working area and the area to be scanned;

the device body is also provided with a mechanical arm, and the scanning device is arranged on a guide rail of the mechanical arm in a sliding way; the object placing table is provided with a plurality of clamping grids, and the clamping grids are used for placing terminals to be tested;

the device body is also provided with a shielding box, and the shielding box comprises a multi-grid baffle plate for shielding each terminal to be tested;

the shielding box is connected with the object placing table, and when the USB plug-in mechanism inserts a connecting wire into the USB port of the terminal to be tested, the shielding box covers the object placing table.

2. The automatic number writing and coupling test device according to claim 1, wherein a manipulator is further provided on the device body, and the manipulator is used for clamping the terminal to be tested to a designated position of the object placing table.

3. An automatic number writing and coupling test method based on the automatic number writing and coupling test equipment according to any one of claims 1-2, characterized by comprising:

controlling the scanning device to scan the bar code, and calling production data from a database according to the scanned bar code information and downloading the production data;

when a coupling test instruction is sent to the terminal to be tested, controlling the test device to perform coupling test on the terminal to be tested;

when a number writing instruction is sent to the terminal to be tested, the testing device is controlled to write the production data into the terminal to be tested.

4. The automatic number writing and coupling test method according to claim 3, wherein after the control of the scanning device scans the bar code and retrieves the production data from the database according to the scanned bar code information and downloads the production data, and before the coupling test and number writing operation, the method further comprises:

controlling a USB plug-in mechanism to connect a plug of a connecting wire with a USB port of the terminal to be tested;

and controlling the testing device to send a debugging instruction to the terminal to be tested so as to adjust the terminal to be tested to be in a factory testing mode.

5. The automatic number writing and coupling test method according to claim 3, wherein when the coupling test instruction is sent to the terminal to be tested, the test device is controlled to perform coupling test on the terminal to be tested, and then further comprising:

testing the power emitted by the terminal to be tested through coupling test, and comparing the power with the standard power in the testing device;

if the two are matched, the coupling test is qualified;

if the coupling test fails, the control manipulator clamps the unqualified products failing the coupling test into the unqualified product collecting box.

6. The automatic number writing and coupling test method according to claim 3, wherein the scanning device is controlled to scan the bar code, and the production data is called from the database and downloaded according to the scanned bar code information, and further comprising:

and controlling the rotating mechanism to rotate the object placing table, and replacing the terminals to be tested in the area to be scanned and the working area on the object placing table.