CN106292624A - A kind of Intelligent mobile equipment double-contact test device - Google Patents

Abstract

A double-contact test device for intelligent mobile equipment, including a base, a support rod, a mobile equipment placement frame, an X-axis telescopic module, a Y-axis telescopic module, a first test telescopic module, a rotation module, an auxiliary telescopic module, and a second test telescopic module , Control the processing module and computer equipment; according to the size of the smart mobile device and the software to be tested, set the test coordinates and the test sequence on the computer equipment, and the computer equipment controls the X-axis expansion and contraction through the set test coordinates and test sequence module, Y-axis telescopic module and the first test telescopic module to test the software, and at the same time use the rotation module, auxiliary telescopic module and the second test telescopic module to realize double-contact testing, that is, to accurately and quickly test the software, Save time and effort, and solve the problems of development blind spots or delays in development timeliness.

Description

A dual-contact test device for intelligent mobile equipment

technical field

The invention relates to the field of mobile equipment testing, in particular to a double-contact testing device for intelligent mobile equipment.

Background technique

Nowadays, with the development of mobile phone software and tablet computer software more and more, application software that is sealed with the content of some large-scale enterprise software is especially needed. Because of the current large-scale enterprise software, in order to prevent some people from using software to form false consecutive clicks Signals, detection software has been developed to avoid such false signals that use software to form continuous clicks, but it also requires new software testing through simulation testing or manual slow testing, which will cause development The blind spots and time delays in development are time-consuming and labor-intensive.

Contents of the invention

For this reason, it is necessary to provide a time-saving and labor-saving smart mobile device double-contact testing device for testing software on the smart device.

In order to achieve the above object, the inventor provides a double-contact test device for intelligent mobile equipment, including a base, a support rod, a mobile equipment placement frame, an X-axis telescopic module, a Y-axis telescopic module, a first test telescopic module, a rotation module, Auxiliary flex module, second test flex module, control processing module and computer equipment;

The bottom end of the support rod is connected to the base, the mobile device placement frame is connected to the middle of the support rod, one end of the X-axis telescopic module is vertically connected to the top of the support rod, and one end of the Y-axis telescopic module is vertically connected to the X-axis telescopic module The other end of the Y-axis telescopic module and the X-axis telescopic module are parallel to the mobile device placement frame, the first test telescopic module is vertically connected to the X-axis telescopic module, the first test telescopic module is parallel to the support rod, and the One end of the auxiliary telescopic module is connected to the first test telescopic module through the rotating module, the auxiliary telescopic module is parallel to the mobile device placement frame, and one end of the second test telescopic module is vertically connected to the auxiliary telescopic module;

The bottoms of the first test telescopic module and the second test telescopic module are provided with a second touch module;

The X-axis telescopic module, the Y-axis telescopic module, the first test telescopic module, the rotation module, the auxiliary telescopic module and the second test telescopic module are connected to the control processing module;

The X-axis telescopic module, the Y-axis telescopic module, the first test telescopic module, the rotation module, the auxiliary telescopic module and the second test telescopic module are connected to the control processing module;

The control processing module is connected with computer equipment.

Further optimization, the computer equipment is provided with a USB interface, and the USB interface is used to connect the computer equipment and the intelligent mobile terminal.

In a further optimization, the mobile device placement frame includes a placement platform and a clamping device, and the clamping device includes two clamping pieces, and the clamping pieces are connected to both sides of the placement platform by springs.

Further optimization, the X-axis telescopic module includes an X-axis rod, a first drive motor and a first gear, the X-axis rod is provided with a first groove track, and one side of the first groove track is provided with a The locked teeth of the first gear, the first gear is connected to the first drive motor;

The Y-axis telescopic module includes a Y-axis rod, a second drive motor, and a second gear. The Y-axis rod is provided with a second grooved track, and one side of the second grooved track is provided with the second gear. locked teeth, the second gear is connected to the second drive motor;

The first test telescopic module includes a first test rod, a third drive motor and a third gear, the first test rod is provided with a third groove track, and the inner side of the third groove track is provided with a The locked teeth of the third gear, the third gear is connected to the third drive motor;

The rotation module includes a fourth drive motor and a rotation sleeve, the rotation sleeve is sleeved on the first test rod through a rolling bearing, and the fourth drive motor is in transmission connection with the rotation sleeve;

The auxiliary telescopic module auxiliary rod, the fifth drive motor and the fourth gear, the auxiliary rod is provided with a fourth groove track, and the inner side of the fourth groove track is provided with a card locked with the fourth gear teeth, the fourth gear is connected to the fifth drive motor;

The second test telescopic module includes a second test rod, a sixth drive motor and a fifth gear, the second test rod is provided with a fifth grooved track, and one side of the fifth grooved track is provided with a The locking teeth of the fifth gear are locked, and the fifth gear is connected to the sixth drive motor.

Further optimization, the touch module includes a touch head, a touch controller, a signal receiver and a signal transmitter; the touch controller is connected to the signal receiver and the signal transmitter, and the signal receiver and the signal transmitter Connect the touch head.

In a further optimization, pressure sensors are provided at the ends of the first test expansion module and the second test expansion module, and the pressure sensors are connected to computer equipment.

Different from the prior art, the above technical solution sets the test coordinates and test sequence on the computer device according to the size of the smart mobile device and the software to be tested, and the computer device controls the X-axis through the set test coordinates and test sequence The telescopic module, the Y-axis telescopic module and the first test telescopic module test the software, and at the same time use the rotation module, the auxiliary telescopic module and the second test telescopic module to realize double-contact testing, that is, to accurately and quickly test the software , save time and effort, and solve the problems of development blind spots or delays in development timeliness.

Description of drawings

Fig. 1 is a kind of structural representation of the smart mobile device dual-contact test device described in the specific embodiment;

Fig. 2 is a schematic structural diagram of the dual-contact testing device for the smart mobile device described in the specific embodiment.

Fig. 3 is a schematic structural diagram of a touch module of the dual-contact test device for smart mobile devices described in the specific embodiment.

Explanation of reference signs:

11. Base,

12. Support rod,

131. Placing table,

132, clamping piece,

141. X axis rod,

1411, the first groove track,

151. Y axis rod,

1511, the second groove track,

161, the first test rod,

162. touch head,

171, auxiliary rod,

1711, the fourth groove track,

18. Rotary module,

191. The second test rod.

detailed description

In order to explain in detail the technical content, structural features, achieved goals and effects of the technical solution, the following will be described in detail in conjunction with specific embodiments and accompanying drawings.

Please refer to Fig. 1 and Fig. 2, a kind of double-contact testing device of intelligent mobile equipment of this embodiment, comprises base 11, support bar 12, mobile equipment placement rack, X-axis telescopic module, Y-axis telescopic module, first test telescopic module , rotation module 18, auxiliary telescopic module, second test telescopic module, control processing module and computer equipment;

The bottom end of the support rod 12 is connected to the base 11, so that the support rod 12 is erected on the base 11; the mobile device placement frame is connected to the middle of the support rod 12, and one end of the X-axis telescopic module is vertically connected to the top of the support rod 12, One end of the Y-axis telescopic module is vertically connected to the other end of the X-axis telescopic module, the Y-axis telescopic module and the X-axis telescopic module are parallel to the mobile device placement frame, and the first test telescopic module is vertically connected to the X-axis telescopic module, The first test telescopic module is parallel to the support rod 12, and one end of the auxiliary telescopic module is connected to the first test telescopic module through a rotating module 18, and the auxiliary telescopic module is parallel to the mobile equipment placement frame, and the second test telescopic module One end is vertically connected to the auxiliary telescopic module. The bottoms of the first test telescopic module and the second test telescopic module are provided with a second touch module; the X-axis telescopic module, the Y-axis telescopic module, the first test telescopic module, the rotation module 18, the auxiliary telescopic module and The second test telescopic module is connected to the control processing module; the X-axis telescopic module, the Y-axis telescopic module, the first test telescopic module, the rotation module 18, the auxiliary telescopic module and the second test telescopic module are connected to the control processing module; the control processing The module connects computer equipment. The computer equipment is provided with a USB interface, and the USB interface is used for connecting the computer equipment and the intelligent mobile terminal. The mobile device placement frame includes a placement platform 131 and a clamping device, the clamping device includes two clamping pieces 132, and the clamping pieces 132 are connected to both sides of the placement platform 131 by springs. The X-axis telescopic module includes an X-axis rod 141, a first drive motor, and a first gear. The X-axis rod 141 is provided with a first grooved track 1411, and one side of the first grooved track 1411 is provided with The locking teeth locked with the first gear, the first gear is connected to the first drive motor; the Y-axis telescopic module includes a Y-axis rod 151, a second drive motor and a second gear, and the Y-axis rod 151 is provided with a There is a second grooved track 1511, the inner side of the second grooved track 1511 is provided with a locking tooth that is locked with the second gear, and the second gear is connected to the second drive motor; the first test telescopic module includes The first test rod 161, the third driving motor and the third gear, the first test rod 161 is provided with a third groove track, and one side of the third groove track is provided with a locking mechanism that is locked with the third gear. The third gear is connected to the third driving motor; the rotating module 18 includes a fourth driving motor and a rotating sleeve, the rotating sleeve is sleeved on the first test rod 161 through a rolling bearing, and the fourth The driving motor is connected to the rotating sleeve; the auxiliary telescopic module auxiliary rod 171, the fifth driving motor and the fourth gear, the auxiliary rod 171 is provided with a fourth grooved track 1711, and the fourth grooved track 1711 The inner side is provided with a locking tooth locked with the fourth gear, and the fourth gear is connected to the fifth drive motor; the second test expansion module includes the second test rod 191, the sixth drive motor and the fifth gear, so The second test rod 191 is provided with a fifth grooved track, and one side of the fifth grooved track is provided with a locking tooth locked with the fifth gear, and the fifth gear is connected with the sixth driving motor.

Place the smart mobile device on the mobile device placement rack, the smart mobile device includes a mobile phone, a tablet computer, etc., fix the smart mobile device on the placement table 131 through the clamping device, and connect the smart mobile device and the computer device through the data cable and the USB interface. To connect, the computer equipment is connected with the smart mobile device, and the model of the smart mobile device is judged. After the judgment, the model of the smart mobile device, the software to be tested, the coordinates and the order of the test are judged, and the computer device is set There are information such as the model of different smart mobile devices, the screen size of smart mobile devices with different signals, and the test position and test sequence of the test software. The computer device controls the X-axis through the control processing module according to the determined test coordinates and test sequence. The telescopic module, the Y-axis telescopic module and the test telescopic module work, and control the first drive motor of the X-axis telescopic module and the second drive motor of the Y-axis telescopic module according to different coordinates, so that the X-axis rod 141 and the Y-axis rod 151 Stretching, so that the test telescopic module reaches the coordinates of the test, and then controls the third drive motor to work, so that the touch module on the bottom of the first test rod 161 performs motoring on the smart mobile device, and then controls the processing module according to the test sequence. The X-axis telescopic module and the Y-axis telescopic module reach different test coordinates, and then control the first test telescopic module to perform a click test on the smart mobile device; it reduces the waste of manpower, saves time, and can accurately test the smart device during development. The software on the mobile device is tested, avoiding the problems of development blind spots and development time delays; there is also a connection between the smart mobile device and the computer, when the touch module motor smart mobile device, the smart mobile device sends feedback information to the computer device, the computer According to the feedback information, the device controls the test telescopic module through the control processing module, so that the test rod 161 is lifted, and the contact with the smart mobile device is ended, which prevents the test rod 161 from causing damage to the screen of the smart mobile device.

When double contacts are needed to click on the screen of the smart mobile device, first click the first coordinate through the first test rod 161, and then through the cooperation of the rotation module 18 and the auxiliary telescopic module, the computer device controls the fourth drive through the control processing module The motor and the fifth drive motor rotate, the fourth drive motor drives the rotating sleeve of the rotating module and the fifth drive motor drives the auxiliary rod 171 to expand and contract, so that the second test rod 191 reaches the second coordinate, and the second coordinate Click; thus achieve double touch point to click on the screen to meet a variety of software testing.

Please refer to FIG. 3 , in this embodiment, the touch module includes a touch head 162, a touch controller, a signal receiver and a signal transmitter; the touch controller is connected to the signal receiver and the signal transmitter, The signal receiver and the signal transmitter are connected to the touch head 162 . When the touch head 162 touches the screen of the smart mobile device, the signal receiver receives the signal generated by the screen and the touch head 162, and the signal receiver feeds back the information to the touch controller, and the touch controller receives the signal from the signal receiver. After receiving the signal, the signal transmitter sends a driving signal to the signal transmitter, and the signal transmitter feeds back the driving signal to the screen of the smart mobile device through the touch head 162 to complete a click, so that the touch module and the screen can quickly and accurately feedback.

In some embodiments, different mobile devices may have different thicknesses. At this time, if the touch head 162 moves too deeply in the vertical direction, it will cause damage to the display screen of the mobile device. If the mobile device is shallow, the mobile device may not be touched. You can install a detection software on the mobile device. When the screen of the mobile device is detected to be touched, a touch signal is sent to the computer device through the USB cable connected to the computer device. The computer device It can be known that the touch head 162 has touched the screen of the mobile device, and then the computer device can send a lifting command to the control processing module, so that the control processing module controls the third drive motor to lift the touch head 162 and perform the next touch. In this way, no matter how thick the mobile device is, the touch head 162 of the control processing module can touch it, and after touching it, the touch head 162 can be lifted to prevent the touch head 162 from further descending and damaging the screen (touch screen) ).

In other embodiments, different devices have different models and may have different thicknesses. If the touch head 162 moves too deeply in the vertical direction, it will damage the display screen of the mobile device. If it is too shallow, the mobile device may not be touched. The touch controller in the touch module is connected to the computer device. Generated signal, the signal receiver feeds back the signal to the touch controller, and the touch controller sends the drive signal to the signal transmitter after receiving the signal from the signal receiver, and at the same time sends the touch signal to the computer device, the computer device according to The touch signal sent by the touch controller determines that the click is completed, and the computer device sends the click signal to the control processing module for the next click test. In this way, no matter how thick the mobile device is, the touch head 162 of the control processing module can touch it, and after touching it, the touch head 162 can be lifted to prevent the touch head 162 from further descending and damaging the screen (touch screen) )

In other embodiments, different types of smart mobile devices may have different screen thicknesses, and the control processing module controls the vertical depth of the touch head 162 to affect the test of the experiment. If it is too deep, it may crush the smart mobile device. If the screen of the device is too shallow, the click test may not be completed, so a pressure sensor is provided at the end of the test telescopic module, and the pressure sensor is connected to a computer device. When the test telescopic module touches the screen of the smart mobile device, when the pressure sensor at the end of the test telescopic module receives external pressure, it sends a signal to the computer device, and the feedback click is completed, and the computer device sends a click signal to the control processing module for the next click test . In this way, the pressure caused by the touch head 162 on the screen is judged according to the information fed back by the pressure sensor. When the pressure reaches the range value preset in the computer device, it can be determined that the click is completed, and the computer device sends a lift signal to the control processing module, then The control processing module controls the third drive motor to lift the touch head 162 for the next click. If the detected pressure is less than the preset range value, the computer device sends a drop signal to the control processing module, and the control processing module continues to control the third drive. The motor continues to lower the touch head 162. If the detected pressure is greater than the preset range value, the computer device sends a lift signal to the control processing module, and the control processing module controls the third driving motor to lift the touch head 162 for the next click. In this way, it is ensured that the touch head 162 can click on the screen, and after touching, the touch head 162 can be lifted for the next click, so as to prevent the touch head 162 from protruding too deep and causing damage to the screen.

It should be noted that in this article, relational terms such as first and second are only used to distinguish one entity or operation from another entity or operation, and do not necessarily require or imply that there is a relationship between these entities or operations. any such actual relationship or order exists between them. Furthermore, the term "comprises", "comprises" or any other variation thereof is intended to cover a non-exclusive inclusion such that a process, method, article, or terminal equipment comprising a set of elements includes not only those elements, but also includes elements not expressly listed. other elements identified, or also include elements inherent in such a process, method, article, or end-equipment. Without further limitations, an element defined by the words "comprising..." or "comprising..." does not exclude the presence of additional elements in the process, method, article or terminal device comprising said element. In addition, in this article, "greater than", "less than", "exceeding" and so on are understood as not including the original number; "above", "below", "within" and so on are understood as including the original number.

Although the above-mentioned embodiments have been described, those skilled in the art can make additional changes and modifications to these embodiments once they know the basic creative concept, so the above-mentioned are only the implementation of the present invention For example, it is not intended to limit the scope of patent protection of the present invention. Any equivalent structure or equivalent process transformation made by using the description and drawings of the present invention, or directly or indirectly used in other related technical fields, is also included in this patent. Inventions within the scope of patent protection.

Claims (6)

1. A dual-contact test device for intelligent mobile equipment, characterized in that it comprises a base, a support rod, a mobile equipment placement frame, an X-axis telescopic module, a Y-axis telescopic module, a first test telescopic module, a rotating module, and an auxiliary telescopic module , the second test expansion module, the control processing module and the computer equipment; The bottom end of the support rod is connected to the base, the mobile device placement frame is connected to the middle of the support rod, one end of the X-axis telescopic module is vertically connected to the other end of the support rod, and one end of the Y-axis telescopic module is vertically connected to the X-axis telescopic module. At the other end of the module, the Y-axis telescopic module and the X-axis telescopic module are parallel to the mobile device placement frame, the first test telescopic module is vertically connected to the X-axis telescopic module, and the first test telescopic module is parallel to the support rod, so One end of the auxiliary telescopic module is connected to the first test telescopic module through a rotating module, the auxiliary telescopic module is parallel to the mobile device placement frame, and one end of the second test telescopic module is vertically connected to the auxiliary telescopic module; Both the bottoms of the first test telescopic module and the second test telescopic module are provided with touch modules; The X-axis telescopic module, the Y-axis telescopic module, the first test telescopic module, the rotation module, the auxiliary telescopic module and the second test telescopic module are connected to the control processing module; The control processing module is connected with computer equipment. 2. The double-contact test device for smart mobile equipment according to claim 1, wherein the computer equipment is provided with a USB interface, and the USB interface is used to connect the computer equipment and the intelligent mobile terminal. 3. according to the described intelligent mobile device double-contact testing device of claim 1, it is characterized in that, described mobile device placement frame comprises placement platform and clamping device, and described clamping device comprises two clamping sheets, and described clamping device The holding piece is connected to both sides of the placing table by a spring. 4. According to claim 1, the intelligent mobile device double-contact test device is characterized in that, the X-axis telescopic module includes an X-axis rod, a first drive motor and a first gear, and the X-axis rod is provided with a first A grooved track, the inner side of the first grooved track is provided with locking teeth locked with the first gear, and the first gear is connected to the first drive motor; The Y-axis telescopic module includes a Y-axis rod, a second drive motor, and a second gear. The Y-axis rod is provided with a second grooved track, and one side of the second grooved track is provided with the second gear. locked teeth, the second gear is connected to the second drive motor; The first test telescopic module includes a first test rod, a third drive motor and a third gear, the first test rod is provided with a third groove track, and the inner side of the third groove track is provided with a The locked teeth of the third gear, the third gear is connected to the third drive motor; The rotation module includes a fourth drive motor and a rotation sleeve, the rotation sleeve is sleeved on the first test rod through a rolling bearing, and the fourth drive motor is in transmission connection with the rotation sleeve; The auxiliary telescopic module auxiliary rod, the fifth drive motor and the fourth gear, the auxiliary rod is provided with a fourth groove track, and the inner side of the fourth groove track is provided with a card locked with the fourth gear teeth, the fourth gear is connected to the fifth drive motor; The second test telescopic module includes a second test rod, a sixth drive motor and a fifth gear, the second test rod is provided with a fifth grooved track, and one side of the fifth grooved track is provided with a The locking teeth of the fifth gear are locked, and the fifth gear is connected to the sixth drive motor. 5. according to the described intelligent mobile device dual contact testing device of claim 1, it is characterized in that, described touch module comprises touch head, touch controller, signal receiver and signal transmitter; Described touch controller The signal receiver and the signal transmitter are connected, and the signal receiver and the signal transmitter are connected to the touch head. 6 . The dual-contact test device for smart mobile devices according to claim 1 , wherein pressure sensors are provided at the ends of the first test telescopic module and the second test telescopic module, and the pressure sensors are connected to computer equipment. 7 .