CN211180019U - Whole machine MMI automatic test equipment - Google Patents

Abstract

The utility model discloses an automatic test equipment of complete machine MMI, include: the outer box body is provided with an inner cavity, the drawer can be pushed or retracted to the inner cavity, the first testing module group is arranged in the drawer, the second testing module group is positioned above the first testing module group, and the third testing module group is positioned below the first testing module group. The drawer is loaded with the mobile terminal, the test modules are modularly arranged in the inner cavity of the outer box body in a layered mode, the structure level is clear, and the layout is reasonable. Each test module group can carry out different multiple tests to mobile terminal to remove mobile terminal to outer box inside through the removal of drawer, carry out different tests to mobile terminal, improve efficiency of software testing.

Description

Whole machine MMI automatic test equipment

Technical Field

The application relates to the technical field of MMI test equipment, in particular to complete machine MMI automatic test equipment.

Background

At present, mobile phones, tablets and wearable devices are more and more integrated, and before delivery, final performance tests (MMI tests) of the whole mobile phones, tablets and wearable devices are required to be performed on finished products of the mobile phones, tablets and wearable devices, and test items comprise keys, earphones, USB (universal serial bus), audio, touch screens, front and rear cameras, flash lamps, sensors, communication functions and the like, so that the delivery quality is ensured. Because the efficiency and reliability of manual testing are low, at present, more devices are used to perform MMI testing on mobile terminals.

Because a plurality of technical fields are involved in the final performance test of cell-phone, dull and stereotyped and wearable equipment, have a plurality of test items, need a plurality of accredited testing organization to accomplish the test, so how reasonable integrated corresponding test module of arranging of test equipment becomes a big technical difficulty. At present, most manufacturers on the market adopt a plurality of machines to complete testing, and the products to be tested need to flow through a plurality of working sections when being detected on an assembly line, so that the testing time is long, the required equipment cost is high, and the procedures are complex. Some manufacturers integrate the corresponding test module into a machine, but the structural arrangement is disordered, so that the testing efficiency of the machine is low and the maintenance and upgrading are difficult.

SUMMERY OF THE UTILITY MODEL

The application aims to provide the whole MMI automatic test equipment, and the module layering design is adopted, so that the test efficiency, the reliability and the consistency are improved.

The application provides a complete machine MMI automation test equipment, includes:

an outer case having an interior cavity;

a drawer advanceable or retractable into the interior cavity;

set up and be in first test module group in the drawer, it includes: the mobile terminal comprises a first fixing plate, a carrier, a plurality of clamping mechanisms, a USB (universal serial bus) testing module, a key testing module and an NFC (near field communication) testing module, a vibration testing module and a fingerprint testing module, wherein the first fixing plate is erected in the drawer, the carrier is arranged on the first fixing plate and used for bearing the mobile terminal, the plurality of clamping mechanisms, the USB testing module, the key testing module and the NFC testing module are arranged around the carrier, the vibration testing module is arranged on the first fixing plate, and the; the clamping mechanisms are used for clamping the mobile terminal;

the second test module group is positioned above the first test module group and comprises a distance sensor detection module, a breathing lamp detection module, a screen brightness detection module and an AS L test module;

a third test module group located below the first test module group, comprising: the gyroscope testing module and the infrared remote control testing module.

Further, the complete machine MMI automated testing equipment, wherein, the clamping mechanism includes: the clamping driving cylinder is positioned on the side edge of the carrier, and the clamping jaw is arranged at the end part of a piston rod of the clamping driving cylinder and used for driving the clamping jaw to move towards the direction close to the carrier so as to clamp the mobile terminal or move towards the direction far away from the carrier so as to loosen the mobile terminal; the USB test module comprises: the USB driving cylinder is used for driving the USB adapter to move towards a USB interface of the mobile terminal so that the USB adapter is inserted into the USB interface of the mobile terminal; the key test module comprises: the key driving cylinder is used for driving the pressing rod to move towards the direction of the mobile terminal key so as to press the key, and to move away from the mobile terminal key so as to release the key; the vibration testing module includes: a piezoelectric vibrating piece for converting a vibration signal of the mobile terminal into an electric signal; the NFC test module comprises: an NFC white card used for enabling the mobile terminal to read; the fingerprint test module includes: fingerprint advancing unit and the fingerprint analog unit who is used for simulating the fingerprint, fingerprint advancing unit is located the below of first fixed plate, fingerprint analog unit sets up fingerprint advancing unit's tip, fingerprint advancing unit is used for advancing fingerprint analog unit and removes to mobile terminal's fingerprint module, or withdraws fingerprint analog unit.

Further, the automatic testing equipment for the MMI of the complete machine comprises a distance sensor detection module, a breath lamp detection module, a screen brightness testing module and an AS L testing module, wherein the distance sensor detection module comprises a rotary driving cylinder fixed on a second fixing plate and a dust card fixed at the end part of a piston rod of the rotary driving cylinder, the breath lamp detection module comprises an upper driving cylinder and a lower driving cylinder fixed on the second fixing plate and a camera fixed at the end part of a piston rod of the upper driving cylinder and the lower driving cylinder, the screen brightness testing module comprises an illumination sensor fixed at the bottom of the second fixing plate, and the AS L testing module comprises a linear light source fixed at the back of the second fixing plate.

Further, the complete machine MMI automated testing equipment, wherein, the gyroscope test unit includes: the promotion that is used for promoting first test module group upset certain angle drives actuating cylinder, infrared remote control test unit includes: the infrared signal receiver is used for receiving an infrared signal transmitted by the mobile terminal and is right opposite to the infrared signal transmitter of the mobile terminal.

Further, the whole MMI automatic test equipment is characterized in that an installation platform and a fixing frame installed on the installation platform are further arranged in the internal cavity, the second test module group is arranged at the top end of the installation platform, and the third test module is arranged on the installation platform.

Further, the whole MMI automation test equipment, wherein the first test module group further includes: a drawer drive mechanism for powering the drawer, the drawer drive mechanism driving the drawer to be extendable or retractable into the internal cavity.

Further, the complete machine MMI automated testing equipment, wherein, outer box includes: the bottom end of the upper box body is fixedly connected with the top end of the lower box body, and the mounting platform is fixed to the top end of the lower box body.

Further, the whole MMI automatic test equipment is characterized in that side doors are arranged on the side faces of the upper box body and the lower box body.

Further, the whole MMI automatic test equipment is characterized in that a display, a control panel and a tray are sequentially arranged on the front face of the upper box from top to bottom, and the tray is used for bearing input equipment for inputting instructions.

Further, the complete machine MMI automation test equipment, wherein, the input equipment includes: a keyboard and/or a mouse.

The utility model has the advantages that:

the application provides a complete machine MMI automation test equipment, bear mobile terminal on the drawer, with test module modularization and set up in the inside cavity of outer box hierarchically, the structure level is clear, rationally distributed. Each test module group can carry out different multiple tests to mobile terminal to remove mobile terminal to outer box inside through the removal of drawer, carry out different tests to mobile terminal, improve efficiency of software testing.

Drawings

Fig. 1 is a schematic view of the overall structure of the whole MMI automatic test equipment provided by the present invention;

fig. 2 is a schematic view of a part of the structure of the whole MMI automatic test equipment provided by the present invention;

FIG. 3 is a schematic structural diagram of a first test module group;

fig. 4 is a schematic structural diagram of a second test module group.

Detailed Description

The present application will be described in further detail below with reference to the accompanying drawings by way of specific embodiments.

Referring to fig. 1 to 4, the present application provides a complete MMI automation test device, which includes: the outer box body 1 with the inner cavity can be pushed or retracted to the drawer 2 with the inner cavity, the first testing module 3 arranged in the drawer, the second testing module group positioned above the first testing module group 3 and the third testing module group positioned below the first testing module group 3. The drawer 2 is loaded with the mobile terminal, the test modules are arranged in the inner cavity of the outer box body in a modularized and layered mode, the structure level is clear, and the layout is reasonable. Each test module group can carry out different multiple tests to mobile terminal to inside moving mobile terminal to outer box 1 through drawer 2, carry out different tests to mobile terminal, improve efficiency of software testing.

As shown in fig. 1, the outer case 1 includes: the structure comprises an upper box body 11, a lower box body 12 and a mounting platform 13 arranged at the top end of the lower box body 12, wherein the bottom end of the upper box body 11 is fixed on the top end of the lower box body 12, so that the structure of the outer box body 1 is formed. Drawer 2 sets up on last box 11, and correspondingly, set up the opening that supplies drawer 2 to release on the lateral wall of last box 11.

The side of the upper box body 11 is also hinged with an upper side door 14, so that the equipment in the upper box body can be conveniently overhauled and maintained in daily life. The front of the upper box 11 is also provided with a display 15 and a tray 16, and the keyboard/mouse is supported on the tray 16. Meanwhile, the front surface of the upper case 11 is also provided with a switch button 17. Go up the top of box 11 and still install three-color lamp 10 for show test system's operating condition, this operating condition includes: whether the work is normal, whether a fault occurs, etc.

The lower box body 12 is specifically an electric cabinet, a processor, a controller, a power supply and the like are installed inside the electric cabinet, a processor system is used for processing data in the testing process, and the power supply is used for supplying power to each testing module to ensure normal operation of testing work. Meanwhile, a lower side door 18 is further arranged on the side surface of the lower box body 12, and a lower box door 19 is further arranged on the front surface of the lower box body 12, so that the processor, the controller, the power supply and the like can be conveniently overhauled or replaced.

In some embodiments, the side surface of the lower box 12 is further provided with heat dissipation holes to dissipate heat inside the lower box 12 and maintain normal operation of each system.

The drawer 2 is pushed or retracted into the inner cavity from an opening formed on the upper box body 11, and a drawer driving mechanism for providing power for the drawer 2 is further arranged on the mounting platform 13. The drawer drive mechanism is, for example: the bottom of the drawer 2 is provided with a threaded seat, a lead screw perpendicular to the plane of the opening is arranged on the mounting platform 13, and a driving motor for driving the lead screw to rotate is arranged on the lead screw, the threaded seat is in threaded connection with the lead screw, and the drawer 2 is driven to advance or retract into the inner cavity through positive and negative rotation output by the driving motor.

First test module group 3 sets up in drawer 2, and this first test module group 3 includes: the first fixing plate 31, the carrier 32, the plurality of clamping mechanisms 33, the USB test module 34, the key test module 35, the vibration test module 36, the NFC test module 37, and the fingerprint test module 38, the first fixing plate 31 is erected in the drawer 2, the carrier 32 is arranged on the first fixing plate 31, the carrier 32 is used for bearing the mobile terminal, the plurality of clamping mechanisms 33, the USB test module 34, the key test module 35, and the NFC test module 37 are arranged around the carrier 32 in a surrounding mode, the vibration test module 36 is arranged on the carrier 32, and the fingerprint test module 38 is arranged below the first fixing plate 31. A plurality of clamping mechanisms 33 are used to clamp the mobile terminal.

The clamping mechanism 33 includes: the clamping driving cylinder is electrically connected with the controller, and the controller controls the clamping driving cylinder to drive the clamping jaw to move towards a direction close to the carrier 32 so as to clamp the mobile terminal, or drives the clamping jaw to move towards a direction far away from the carrier so as to loosen the mobile terminal.

USB test module 34 includes: USB drives actuating cylinder to and set up the USB adapter who drives actuating cylinder piston rod tip at USB, USB drives actuating cylinder and is used for driving the USB adapter to remove towards mobile terminal's USB kneck, so that the USB adapter inserts mobile terminal's USB interface, perhaps is used for driving the USB adapter to remove towards the USB kneck of keeping away from mobile terminal, so that mobile terminal's interface is extracted to the USB adapter. After the USB interface of the mobile terminal is inserted, the inserted signal is converted into an electric signal and output to the processor, so that whether the USB interface of the mobile terminal works normally is judged.

The key test module 35 includes: the key driving cylinder is used for driving the pressing rod to move towards the direction of a mobile terminal key to press the key on the mobile terminal, or driving the pressing rod to move away from the mobile terminal key to loosen the key on the mobile terminal. When the keys of the mobile terminal are pressed, the key signals of the mobile terminal are converted into electric signals and output to the processor, so that whether the keys of the mobile terminal work normally is judged.

The vibration test module 36 includes: and the piezoelectric vibrating reed is used for converting a vibration signal generated by the motor of the mobile terminal into an electric signal and outputting the electric signal to the processor so as to judge whether the vibration motor of the mobile terminal works normally.

The NFC test module 37 is disposed on the first fixing plate 31, and includes: and the NFC white card is used for reading an NFC signal of the mobile terminal and outputting the signal to the processor so as to judge whether the NFC operation of the mobile terminal is normal.

Fingerprint test module 38 includes: fingerprint advancing unit 30 and the fingerprint analog unit who is used for simulating the fingerprint, fingerprint advancing unit 30 is located the below of first fixed plate 31, offer on first fixed plate 31 and be used for exposing the mobile terminal fingerprint module in the via hole of first fixed plate below, fingerprint analog unit sets up the tip at fingerprint advancing unit 30 output, a direction removal towards mobile terminal fingerprint module after passing the via hole for advancing fingerprint analog unit, perhaps after finishing in the fingerprint module test to mobile terminal, drive fingerprint analog unit removes to the direction of keeping away from mobile terminal fingerprint module, in order to regain fingerprint analog unit. Produce the signal of telecommunication after fingerprint analog unit and mobile terminal's fingerprint module group to export this signal of telecommunication for the treater, whether normal with the fingerprint module work of judging mobile terminal.

The second testing module group is located above the first testing module group 3, and the second testing module group comprises a second fixing plate 41, a distance sensor detecting module 42, a breathing lamp detecting module 43, a screen brightness detecting module and an AS L testing module, which are arranged on the second fixing plate 41.

As shown in fig. 4, the distance sensor detecting module 42 includes: the adjustable shaft clamp 422 is fixed on the second fixing plate 41 and used for adjusting the height of the rotary driving cylinder 421, the ash card 423 is fixed at the end of a piston rod of the rotary driving cylinder 421, the rotary driving cylinder 421 is electrically connected with the controller, and the controller controls the rotary driving cylinder 421 to drive the ash card 423 to rotate at an angle so as to shield the distance sensor of the mobile terminal. After the distance sensor is shielded, the screen of the mobile terminal can be automatically closed, and the closed signal is converted into an electric signal and output to the processor so as to judge whether the distance sensor works normally. It should be noted that the distance sensor is arranged on the front side of the mobile phone, and in the process of communication, when a user approaches the mobile phone screen, the screen can be automatically closed according to the distance information obtained by the distance sensor; when the user is far away from the mobile phone screen, the mobile phone screen can be automatically lightened.

The breathing lamp detection module 43 includes: the upper and lower driving cylinder 431 is fixed on the second fixing plate 41, the camera 432 is fixed at the end part of a piston rod of the upper and lower driving cylinder 431, the upper and lower driving cylinder 431 is electrically connected with the controller, the controller controls the upper and lower driving cylinder 431 to drive the camera 432 to move towards the direction close to the front camera of the mobile terminal so as to shoot whether the breathing lamp is lighted, and after a picture of the lighted breathing lamp is shot, the picture information is output to the processor, so that the normal work of the breathing lamp can be judged.

The screen brightness test module comprises: the illumination sensor 441 is used for sensing the change of the screen brightness of the mobile terminal screen under different brightness conditions, so as to detect the brightness of the mobile terminal screen. Specifically, the change of the screen brightness generates a changed electric signal, and the electric signal is output to the processor to judge whether the change of the screen brightness is normal.

The AS L test module comprises a linear light source 451 fixed on the back of the second fixing plate 41, which can adjust the linear light source 451 to different brightness, so AS to generate different brightness changes in the upper case 11, the different brightness changes can make the sensor generate a certain changed electric signal, and the electric signal is output to the processor, so AS to detect the AS L.

As shown in fig. 2, the third test module group is located below the first test module group 3, and the third test module group includes: a gyroscope test module 51 and an infrared remote control test module 52.

The gyro test module 41 includes: the pushing driving cylinder for pushing the first testing module group 3 to turn over by a certain angle drives the mobile terminal carried on the carrier 32 to rotate by a certain angle, and then judges whether the gyroscope sensor built in the mobile terminal works normally.

The infrared remote control test module 52 includes: the infrared signal receiver is used for receiving an infrared signal transmitted by the mobile terminal, the infrared signal receiver is right opposite to an infrared signal transmitter of the mobile terminal, and whether the infrared signal transmitter on the mobile terminal works normally is judged by whether the infrared signal transmitted by the infrared signal transmitter of the mobile terminal is received.

In summary, the automatic testing equipment for the whole MMI provided by the embodiment modularizes and hierarchically arranges the testing modules in the inner cavity of the outer box body, and has clear structural hierarchy and reasonable layout. Each test module group can carry out different multiple tests on the mobile terminal, and carry out different tests on the mobile terminal, thereby improving the test efficiency.

The foregoing is a more detailed description of the present application in connection with specific embodiments thereof, and it is not intended that the present application be limited to the specific embodiments thereof. For those skilled in the art to which the present application pertains, a number of simple deductions or substitutions can be made without departing from the inventive concept of the present application.

Claims (10)

1. The utility model provides a complete machine MMI automation test equipment which characterized in that includes:

an outer case having an interior cavity;

a drawer advanceable or retractable into the interior cavity;

set up and be in first test module group in the drawer, it includes: the mobile terminal comprises a first fixing plate, a carrier, a plurality of clamping mechanisms, a USB (universal serial bus) testing module, a key testing module and an NFC (near field communication) testing module, a vibration testing module and a fingerprint testing module, wherein the first fixing plate is erected in the drawer, the carrier is arranged on the first fixing plate and used for bearing the mobile terminal, the plurality of clamping mechanisms, the USB testing module, the key testing module and the NFC testing module are arranged around the carrier, the vibration testing module is arranged on the first fixing plate, and the; the clamping mechanisms are used for clamping the mobile terminal;

the second test module group is positioned above the first test module group and comprises a second fixing plate, a distance sensor detection module, a breathing lamp detection module, a screen brightness detection module and an AS L test module, wherein the distance sensor detection module, the breathing lamp detection module, the screen brightness detection module and the AS L test module are arranged on the second fixing plate;

a third test module group located below the first test module group, comprising: the gyroscope testing module and the infrared remote control testing module.

2. The complete MMI automation test equipment of claim 1, wherein the clamping mechanism comprises: the clamping driving cylinder is positioned on the side edge of the carrier, and the clamping jaw is arranged at the end part of a piston rod of the clamping driving cylinder and used for driving the clamping jaw to move towards the direction close to the carrier so as to clamp the mobile terminal or move towards the direction far away from the carrier so as to loosen the mobile terminal; the USB test module comprises: the USB driving cylinder is used for driving the USB adapter to move towards a USB interface of the mobile terminal so that the USB adapter is inserted into the USB interface of the mobile terminal; the key test module comprises: the key driving cylinder is used for driving the pressing rod to move towards the direction of the mobile terminal key so as to press the key, and to move away from the mobile terminal key so as to release the key; the vibration testing module includes: a piezoelectric vibrating piece for converting a vibration signal of the mobile terminal into an electric signal; the NFC test module comprises: an NFC white card used for enabling the mobile terminal to read; the fingerprint test module includes: fingerprint advancing unit and the fingerprint analog unit who is used for simulating the fingerprint, fingerprint advancing unit is located the below of first fixed plate, fingerprint analog unit sets up fingerprint advancing unit's tip, fingerprint advancing unit is used for advancing fingerprint analog unit and removes to mobile terminal's fingerprint module, or withdraws fingerprint analog unit.

3. The complete MMI automatic test equipment according to claim 1, wherein the distance sensor detection module comprises a rotary driving cylinder fixed on the second fixing plate and a dust card fixed at the end part of a piston rod of the rotary driving cylinder, the breathing lamp detection module comprises an upper and lower driving cylinder fixed on the second fixing plate and a camera fixed at the end part of a piston rod of the upper and lower driving cylinder, the screen brightness test module comprises an illumination sensor fixed at the bottom of the second fixing plate, and the AS L test module comprises a linear light source fixed at the back of the second fixing plate.

4. The complete MMI automation test equipment of claim 1, wherein the gyroscope test module comprises: the promotion that is used for promoting first test module group upset certain angle drives actuating cylinder, infrared remote control test module includes: the infrared signal receiver is used for receiving an infrared signal transmitted by the mobile terminal and is right opposite to the infrared signal transmitter of the mobile terminal.

5. The complete MMI automation test equipment according to claim 1, wherein a mounting platform and a fixing frame mounted on the mounting platform are further arranged in the internal cavity, the second test module group is arranged at the top end of the mounting platform, and the third test module is arranged on the mounting platform.

6. The complete MMI automation test equipment of claim 1, wherein the first set of test modules further comprises: a drawer drive mechanism for powering the drawer, the drawer drive mechanism driving the drawer to be extendable or retractable into the internal cavity.

7. The complete machine MMI automation test equipment of claim 5, wherein the outer case includes: the bottom end of the upper box body is fixedly connected with the top end of the lower box body, and the mounting platform is fixed to the top end of the lower box body.

8. The complete machine MMI automated test equipment of claim 7, wherein side doors are arranged on the side surfaces of the upper box body and the lower box body.

9. The complete MMI automation test equipment according to claim 8, characterised in that the front of the upper box is provided with a display, a control panel and a tray from top to bottom in sequence, the tray is used for supporting input equipment for inputting instructions.

10. The complete MMI automation test equipment of claim 9, wherein the input device comprises: a keyboard and/or a mouse.

Images