CN205426801U - Touch screen terminal test equipment - Google Patents

Abstract

The utility model discloses a touch screen terminal test equipment. By multi -shaft motion platform control touch screen action bars, the top contact that makes the touch screen action bars carries out the operation set for on being surveyed the screen at touch screen terminal to acquire the pressure force information that the screen at touch screen terminal was surveyed in contact touching in top by pressure sensor, according to press shooing fast in succession of force information control industry camera, according to press force information and shoot the picture data of gained and carry out calculation and analysis to the reaction rate of being surveyed the touch screen terminal, accomplish the test. The reaction rate test at touch screen terminal can be accomplished automatically to the scheme that this application embodiment provided, and is more accurate than manual testing, moves more unanimously, and efficiency is higher to picture data is as aassessment foundation, the vision of more being close to the users experience, analysis's the height of precision as a result moreover.

Description

Touch screen terminal test equipment

Technical field

This utility model relates to terminal test technical field, particularly relates to a kind of touch screen terminal test equipment.

Background technology

Touch screen terminal, such as touch-screen mobile phone and touch screen panel computer, is the important performance indexes of touch screen terminal for the response speed of user operation, and the fluency of the height relation touch screen terminal of response speed and stability are of close concern to each other with Consumer's Experience.To the response speed of user operation, touch screen terminal refers to that screen is operated by user after, touch screen terminal is according to the speed of described operation display correspondence image, and described operation includes click and slip etc..The test of response speed is the main contents of touch screen terminal test, although the factor affecting touch screen terminal response speed includes the physical characteristic of touch screen itself, touch screen terminal system and relevant application software, but the test of the response speed to touch screen terminal, it is intended to obtain the response speed of touch screen terminal under current application software and current system, to understand touch screen terminal performance under the present circumstances, as the reference of design of hardware and software, reason is not made a concrete analysis of in test itself.

The specific targets that touch screen terminal response speed is relevant, including response performance frame per second, sliding capability time delay and sliding capability frame per second etc..Response performance frame per second refers to after the clicking operation of user, such as, after user carries out starting application, lights screen or the clicking operation such as screen of going out, screen change is from initiateing to the change frame per second terminated.Sliding capability time delay refer to screen after the slide of user occurs, after the time delay between screen change starting point, the such as desktop user are slided or the operation such as contacts list slip occurs, the time delay between screen generation desktop slides or contacts list slides.Sliding capability frame per second refers to after user carries out slide, such as, after carrying out the operation such as desktop slip or contacts list slip, screen change is from initiateing to the change frame per second terminated.

The test of touch screen terminal response speed is based on manual testing or virtual test at present, and manual testing is by some simple tools, such as camera and software for calculation, manually touch screen terminal is operated, then take pictures, obtain test data, re-use software for calculation to calculate response speed index of correlation；Virtual test is then to implant Software Testing Tool in advance in touch screen terminal, obtains source of screen from internal system interface and is correlated with real time data to carry out test analysis.Manual testing's method, in the case of construction cycle of current touch screen terminal is short, iteration updating decision, shipment amount are big, test case is many and numerous and diverse, it is impossible to realizing long-time follow-on test, efficiency is low；And accuracy is low, subjectivity is big, and the difference between tester or even between company all can cause the disunity of method of testing and testing standard, it is also difficult to reunification describes and analyzes.Virtual measuring method then physical screen not over touch screen terminal operates, it is impossible to analog subscriber operation truly, it is impossible to consistent with user's perception, accuracy is the highest, and owing to the operating system of a lot of touch screen terminal is closed system, it is difficult to implanting Software Testing Tool, the scope of application is little.

Utility model content

For overcoming the problem that touch screen terminal testing efficiency and accuracy in correlation technique are low, the application provides a kind of touch screen terminal test equipment.Described touch screen terminal test equipment, including:

Framework, described framework includes that base and camera support, described camera support are connected or one-body molded with described base；

Multiaxial motion platform, is installed in described framework, and described multiaxial motion platform is by multiple single axial movement mechanisms and controls the kinetic control system of each single axial movement mechanism action and forms；

Touch screen terminal pallet, described touch screen terminal pallet is connected or one-body molded with described framework；

Contact action bar, it is installed in the single axial movement mechanism of described multiaxial motion platform, the top contact of described contact action bar is connected with pressure transducer, the stroke range that described contact action bar is reached by the motion of described multiaxial motion platform, cover test scope when laying tested touch screen terminal in described touch screen terminal pallet, and by the motion of described multiaxial motion platform, the minimum range between top contact and the described touch screen terminal pallet of described contact action bar is less than the thickness of tested touch screen terminal；

At least one industrial camera, is installed on described camera support, and the camera lens of described industrial camera is connected towards described touch screen terminal pallet, the control system of taking pictures of described industrial camera with described pressure transducer.

Optionally, described multiaxial motion platform is XYZ three-axis moving system, its Y-axis motion is assembled in the two ends of described base, its X-axis motion is installed on described Y-axis motion, its Z axis motion is installed on described X-axis motion, and described contact action bar is installed on described Z axis motion.

Optionally, described camera support is positioned at the top of described multiaxial motion platform, and described camera support is parallel with described X-axis motion.

Optionally, described touch screen terminal pallet is provided with rectangular recess or snap close is installed, wherein, the width of described rectangular recess is more than the width of tested touch screen terminal, the length of described rectangular recess is more than the length of tested touch screen terminal, the camera lens of described industrial camera is towards described rectangular recess, and described snap close for being locked in described touch screen terminal pallet by tested touch screen terminal.

Optionally, described touch screen terminal test equipment, including two industrial cameras, in said two industrial camera, at least one is high-speed industrial camera.

Optionally, the kinetic control system of described multiaxial motion platform and the control system of taking pictures of described industrial camera are connected with test control center.

Optionally, described touch screen terminal test equipment, also include that shell, described framework, described multiaxial motion platform, described touch screen terminal pallet, described contact action bar and at least one industrial camera described are respectively positioned on described enclosure.

Optionally, described touch screen terminal test equipment, also include that dark slide, described dark slide are installed on described framework, at least one industrial camera described is positioned under described dark slide.

The technical scheme that the embodiment of the present application provides, by multiaxial motion platform courses contact action bar, make the operation that the top contact of contact action bar is set on the screen of tested touch screen terminal, and obtained, by pressure transducer, the pressure information that top contact touches the screen of tested touch screen terminal, taking pictures of industrial camera is controlled according to described pressure information, the response speed of tested touch screen terminal is calculated and analyzes by the image data according to described pressure information and gained of taking pictures, and completes test.The scheme that the embodiment of the present application provides, can be automatically performed the response speed test of touch screen terminal, more accurate than manual testing, action is more consistent, in hgher efficiency, using image data as assessment foundation, closer to user's visual experience, and the result precision of computational analysis is high.The equipment that additionally the embodiment of the present application is provided uses pressure transducer, it is capable of in the shortest time detecting to the time touching tested touch screen terminal screen, the very first time triggers industrial camera and takes pictures, record the details of tested touch screen terminal screen change, solve the problem that other method of testing node mistakes cause data to be forbidden.

It should be appreciated that it is only exemplary and explanatory that above general description and details hereinafter describe, the application can not be limited.

Accompanying drawing explanation

In order to be illustrated more clearly that the embodiment of the present application or technical scheme of the prior art, the accompanying drawing used required in embodiment or description of the prior art will be briefly described below, apparently, for those of ordinary skills, on the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the structural representation of a kind of touch screen terminal test equipment shown in the application one exemplary embodiment.

Detailed description of the invention

Here will illustrate exemplary embodiment in detail, its example represents in the accompanying drawings.When explained below relates to accompanying drawing, unless otherwise indicated, the same numbers in different accompanying drawings represents same or analogous key element.Embodiment described in following exemplary embodiment does not represent all embodiments consistent with the application.On the contrary, they only with describe in detail in appended claims, the application some in terms of the example of consistent equipment.

In order to understand the application comprehensively, refer to numerous concrete details in the following detailed description, it will be appreciated by those skilled in the art that the application can realize without these details.In other embodiments, being not described in detail known process, assembly and circuit, obscuring in order to avoid undesirably resulting in embodiment.

Fig. 1 is the structural representation of a kind of touch screen terminal test equipment shown in the application one exemplary embodiment.As it is shown in figure 1, described equipment includes framework 29, triaxial movement platform 34, touch screen terminal pallet 28, contact action bar 33, pressure transducer 23, general industry camera 21 and high-speed industrial camera 22.

Wherein, described framework 29 includes that base 30 and camera support 31, described camera support 31 are connected by side support 35 with described base 30, and base and camera support all weld with side support.Described base and described camera support can also removably connect with side support, such as, fitted together by detachable installation elements.Described base can also be one-body molded with described framework, and described camera support can also be one-body molded with described framework.General industry camera 21 and high-speed industrial camera 22 nestle up and are installed on described camera support 31, and the camera lens of two cameras is both facing to described touch screen terminal pallet 28.

Triaxial movement platform 34, it is installed in described framework 29, described triaxial movement platform is by X-axis motion 26, Y-axis motion 25 and Z axis motion 27 and controls the kinetic control system of each single axial movement mechanism action and forms, and each single axial movement mechanism includes axle moving assembly and axle slide assemblies respectively.Wherein, Y-axis motion 25 is assembled in the two ends of described base 30, X-axis motion 26 is installed on described Y-axis motion 25, and Z axis motion 27 is installed on described X-axis motion 26, and described contact action bar 33 is installed on described Z axis motion 27.Triaxial movement platform is controlled by its kinetic control system, kinetic control system can write motor program, the motion of regulation is completed by performing motor program, including Y-axis motion along the translation of base two ends slide rail, X-axis motion is along the translation of the slide rail being installed on Y-axis motion, and Z axis motion is along the translation of the slide rail being installed on X-axis motion.Contact action bar 33 can be positioned and be made described contact action bar 33 to complete the sliding action of regulation by the motion of X-axis motion, Y-axis motion and Z axis motion.

The top of described contact action bar 33 is top contact, and described top contact can be capacitance pen contact, it is possible on touch screen, operation makes touch screen that reflection and change to occur.During test, tested touch screen terminal 32 is positioned in touch screen terminal pallet 28, and triaxial movement platform completes, with contact action bar, the action that program is specified on the screen of tested touch screen terminal.Described touch screen terminal pallet can described framework one-body molded, such as using the base of described framework as touch screen terminal pallet, or on the base of described framework, impact pallet shape as touch screen terminal pallet.Described touch screen terminal pallet can also separately formed (being such as shaped to rectangular disk) weld or bonding with described base afterwards, or is removably connected with described base by removable connectors such as buckles.When described touch screen terminal pallet is one-body molded with described base or welds together, touch screen terminal pallet will not be moved because of the movement of framework or vibrations, and steadiness is high, the beneficially operation of the tested touch screen terminal of contact action pole pair.In a preferred embodiment, described touch screen terminal pallet is provided with rectangular recess, the width of described rectangular recess is more than the width of tested touch screen terminal, the length of described rectangular recess is more than the length of tested touch screen terminal, preferred mode is the width of described rectangular recess and length slightly larger than the width of tested touch screen terminal and length, the most all more than 0.5cm, the most tested touch screen terminal can be relatively stable be positioned in described rectangular recess, to prevent when contact action bar operates tested touch screen terminal, tested touch screen terminal is moved.Tested touch screen terminal is generally not limited to a kind of model, for improving the versatility of equipment, in another preferred embodiment, described rectangular recess could be arranged to change the structure of length or width, the such as side at described rectangular recess installs flexible clamp piece, the size of rectangular recess is adjusted according to the size of tested touch screen terminal, so that tested touch screen terminal can fix in described rectangular recess when test.Another preferred embodiment in, described touch screen terminal pallet arranges snap close, for tested touch screen terminal is locked in described touch screen terminal pallet, the most tested touch screen terminal position is fixed, it is possible to is better protected from tested touch screen terminal and is moved in test process.If touch screen terminal pallet is provided with the rectangular recess laying tested touch screen terminal, the camera lens of the most described industrial camera is towards described rectangular recess, the most accurate so that taking pictures, if touch screen terminal pallet is not provided with laying the rectangular recess of tested touch screen terminal, the position of tested touch screen terminal then can be adjusted in test, the camera lens enabling industrial camera is preferably directed at tested touch screen terminal, therefore described rectangular recess is set in touch screen terminal pallet and is also beneficial to the alignment lens of industrial camera, remove from and manually adjusting.

Contact action bar 33 is installed on the Z axis motion 27 of described triaxial movement platform.The stroke range that described contact action bar is reached by the motion of described triaxial movement platform, test scope when laying tested touch screen terminal in described touch screen terminal pallet can be covered, the screen ranges of the usual described the most tested touch screen terminal of test scope, that is, by the X-axis of triaxial movement platform, Y-axis and the action of Z axis motion, in the range of described contact action bar can being positioned described test, and the operation trace of described touch screen stick is less than described test scope.And by the motion of described triaxial movement platform, the minimum range between top contact and the described touch screen terminal pallet of described contact action bar is less than the thickness of tested touch screen terminal, so that contact action bar can touch tested touch screen terminal.

The top contact of contact action bar 33 is connected with pressure transducer 23, when top contact and the screen touch of tested touch screen terminal, pressure transducer will obtain the pressure information that touching produces, in the technical scheme of the application, the temporal information of the described pressure information predominantly pressure correlation that touching produces.Described pressure transducer is connected with described top contact, can be pressure transducer and described top contact one, namely top contact is per se with the function of pressure transducer, such as capacitance pressure transducer and the first body of capacitive touch are combined as top contact, and pressure transducer directly obtains the pressure information that top contact produces.Described pressure transducer can also separate with described top contact, it is installed on described contact action bar, it is connected with described top contact by micro-displacement conversion element, in one embodiment, described contact action bar is fixed, by with described Z axis motion, the cantilever being connected, and connection and the vertical bar parallel with described Z axis motion composition is fixed with described cantilever, pressure transducer is installed on described cantilever, this structure is conducive to the installation of various model pressure transducer, will not produce with other parts of equipment and conflict.Described pressure transducer can also be installed on described Z axis motion, and is connected with described top contact by micro-displacement conversion element.

Described pressure transducer 23 is connected by holding wire with described general industry camera 21 and high-speed industrial camera 22.In test, when contact action bar starts operation, moment at the tested touch screen terminal of touch screen, namely pressure transducer gets the moment of initial pressure signal, it it is two cameras start time point of starting to take pictures, therefore the sensitivity of pressure transducer is the highest more good, preferably, the sensitivity of described pressure transducer is more than or equal to 0.01mV/g, this value is according to the signal delay situation taken pictures between speed and pressure transducer and two cameras of two selected cameras, comprehensively obtain through many experiments, when the sensitivity of pressure transducer is not less than 0.01mV/g, the response time of taking pictures of camera can meet requirement, namely camera starts time of taking pictures and contact action bar and starts the time synchronized of operation.

The present embodiment employs two industrial cameras, one is general industry camera, one is high-speed industrial camera, described high-speed industrial camera can select frame rate at the high-speed industrial camera of more than 240fps, corresponding to top contact each micromotion on tested mobile terminal screen, it is possible to obtain the picture of more than 24 frames of screen for follow-up calculating and data analysis.nullDescribed in general industry camera, the picture of shooting is then mainly used in judging whether the motion of each shaft movement mechanism puts in place，Judge whether described contact action bar puts in place，And judge that the operation trace of contact action bar is the most correct，Such that it is able to assist each shaft movement mechanism correctly to move，Image by general industry camera captured in real-time，In real time image is observed，Above-mentioned judgement is carried out according to described image，Or obtain the view data of general industry camera shooting，Whether the location of pixels according to each shaft movement mechanism of described analysis of image data and contact action bar meets the parameter of setting，If the motion of each shaft movement mechanism is not in place，Such as X-axis motion does not moves to the position set，Or described contact action bar does not puts in place，Namely contact action bar Wrong localization，Or the operation trace mistake of contact action bar，Then each shaft movement mechanism can be adjusted，Such as each shaft movement mechanism is corrected，Or adjust the kinematic parameter of corresponding kinetic control system to ensure that each shaft movement mechanism can proper exercise，Thus also ensure that contact action bar can carry out correct operation in correct position.When implementing this utility model, if three-axis moving mechanism has the highest positional accuracy under the control of kinetic control system, it is also possible to only use a high-speed industrial camera to obtain image data.Preferably by two camera collaborative works, obtain view data more accurately.It should be noted that owing to needing a large amount of pictures to carry out follow-up calculating and data analysis, therefore high-speed industrial camera is indispensable, say, that a described touch screen terminal test equipment at least high-speed industrial camera.

Described general industry camera and described high-speed industrial camera nestle up and are installed on described camera support.In the present embodiment, during test, tested touch screen terminal is placed in touch screen terminal pallet, and described touch screen terminal pallet is connected with base, therefore for operating described tested touch screen terminal, described contact action bar is downward, and the camera lens of two cameras is also down, it is therefore preferred to, as shown in Figure 1, described camera support is positioned at the top of described triaxial movement platform, and described camera support is parallel with described X-axis motion, so facilitates the camera shooting to the screen of tested touch screen terminal.

In one embodiment, described touch screen terminal test equipment also includes shell, framework 29, triaxial movement platform 34, touch screen terminal pallet 28, contact action bar 33, pressure transducer 23, general industry camera 21 and high-speed industrial camera 22 are respectively positioned in shell, described shell can make general industry camera 21 and high-speed industrial camera 22 when taking pictures from the impact of external environment light, improves the quality of shooting photo.

In one embodiment, described touch screen terminal test equipment, also include dark slide, described dark slide is installed on described framework, at least one industrial camera described is positioned under described dark slide, described dark slide can obstruct the light, make general industry camera 21 and high-speed industrial camera 22 when taking pictures from the impact of external environment light, improve the quality of shooting photo, described dark slide may be arranged as adjustable size and blocks the form of angle, dark slide is adjusted with the light according to test environment, to adjust general industry camera 21 and the impact of high-speed industrial camera 22 light suffered when taking pictures, improve the quality of shooting photo.

In one embodiment, described touch screen terminal pallet can also separate with base, but the side with described framework is set, such as front side edge in Fig. 1, and be connected with two front side frame of front side edge, being provided with buckle on described touch screen terminal pallet, during test, tested touch screen terminal is snapped to be fixed and on described touch screen terminal pallet.In this case, described contact action bar is forward, it is towards touch screen terminal pallet, owing to touch screen terminal pallet is parallel with X-axis motion, for convenience of shooting, camera support is also parallel with X-axis motion, but it is arranged at the side relative with side, described touch screen terminal pallet place, such as back side edge in Fig. 1, camera support is connected with described framework by two rear side supports, and the camera lens being installed on camera support is towards described touch screen terminal pallet.

Under the drive of described triaxial movement platform, the top contact of the contact action bar screen to tested touch screen terminal, (having moved up and down click along Z axis motion) can be clicked on, left and right linear slide on the screen, and linear slide before and after on the screen, wherein, with the both direction along X-axis motion as left and right directions, with the both direction along Y-axis motion as fore-and-aft direction.

In one embodiment, described triaxial movement platform can also replace with two axle motion platforms, such as the Y-axis motion in Fig. 1 is fixed, contact action bar is only along translation and the slide rail upper and lower translation along Z axis motion about the slide rail of X-axis motion, in this case, the screen of tested touch screen terminal is only clicked on (having moved up and down click along Z axis motion) by the top contact of contact action bar, and left and right linear slide on the screen, wherein, with the both direction along X-axis motion as left and right directions.

In another embodiment, described triaxial movement platform may be replaced by four axes motion platform, on Z axis motion, such as it is further added by a R shaft movement mechanism, described R shaft movement mechanism is rotary shaft, so, the top contact of the contact action bar screen to tested touch screen terminal, (having moved up and down click along Z axis motion) can be clicked on, left and right linear slide on the screen, linear slide before and after on the screen, and driven camber line on the screen to slide by R shaft movement mechanism, wherein, with the both direction along X-axis motion as left and right directions, with the both direction along Y-axis motion as fore-and-aft direction.It should be noted that triaxial movement platform can also be replaced with other multiaxial motion platforms according to the operation on the screen needed for test, to complete the increasingly complex operation set.

In the embodiment of the present application, test control center is set, the kinetic control system of described triaxial movement platform, and the control system of taking pictures of described general industry camera and described high-speed industrial camera is connected with test control center, the relevant setting of kinetic control system program and the relevant setting of control system program of taking pictures has been unified by test control center, and receive described kinetic control system and the motion-dependent data of described control system return of taking pictures and image data, and according to motion-dependent data, kinetic control system is tested, and complete to test required calculating and data analysis according to image data.Arrange test control center more aspect tester concentration be set and operate.Described test control center can also be connected with cloud platform, shares test data.

The touch screen terminal test equipment that the embodiment of the present application provides, by multiaxial motion platform courses contact action bar, make the operation that the top contact of contact action bar is set on the screen of tested touch screen terminal, carry out analog manual operation, and obtained, by pressure transducer, the pressure information that top contact touches the screen of tested touch screen terminal, it is capable of in the shortest time detecting to the time touching tested touch screen terminal screen, very first time triggering industrial camera is taken pictures and is obtained the change of tested touch screen terminal screen, solve the problem that other method of testing node mistakes cause data to be forbidden, image data according to described pressure information and gained of taking pictures carries out computational analysis to the response speed of tested touch screen terminal, it is automatically performed test, and real-time testing analysis can be carried out.Described equipment is automatically performed the response speed test of touch screen terminal, has more high accuracy and efficiency than manual testing, and using image data as assessment foundation, closer to user's visual experience, the result precision of computational analysis is higher.

It should be noted that, in this article, the such as relational terms of " first " and " second " or the like is used merely to separate an entity or operation with another entity or operating space, and not necessarily requires or imply relation or the backward that there is any this reality between these entities or operation.And, term " includes ", " comprising " or its any other variant are intended to comprising of nonexcludability, so that include that the process of a series of key element, article or equipment not only include those key elements, but also include other key elements being not expressly set out, or also include the key element intrinsic for this process, method, article or equipment.In the case of there is no more restriction, statement " including ... " key element limited, it is not excluded that there is also other identical element in including the process of described key element, method, article or equipment.

The above is only the detailed description of the invention of the application, makes to skilled artisans appreciate that or realize the application.Multiple amendment to these embodiments will be apparent to one skilled in the art, and generic principles defined herein can realize in the case of without departing from spirit herein or scope in other embodiments.Therefore, the application is not intended to be limited to the embodiments shown herein, and is to fit to the widest scope consistent with principles disclosed herein and features of novelty.

Claims (8)

1. a touch screen terminal test equipment, it is characterised in that including:

Framework, described framework includes that base and camera support, described camera support are connected or one-body molded with described base；

Multiaxial motion platform, is installed in described framework, and described multiaxial motion platform is by multiple single axial movement mechanisms and controls the kinetic control system of each single axial movement mechanism action and forms；

Touch screen terminal pallet, described touch screen terminal pallet is connected or one-body molded with described framework；

Contact action bar, it is installed in the single axial movement mechanism of described multiaxial motion platform, the top contact of described contact action bar is connected with pressure transducer, the stroke range that described contact action bar is reached by the motion of described multiaxial motion platform, cover test scope when laying tested touch screen terminal in described touch screen terminal pallet, and by the motion of described multiaxial motion platform, the minimum range between top contact and the described touch screen terminal pallet of described contact action bar is less than the thickness of tested touch screen terminal；

At least one industrial camera, is installed on described camera support, and the camera lens of described industrial camera is connected towards described touch screen terminal pallet, the control system of taking pictures of described industrial camera with described pressure transducer.

2. touch screen terminal test equipment as claimed in claim 1, it is characterized in that, described multiaxial motion platform is XYZ three-axis moving system, its Y-axis motion is assembled in the two ends of described base, its X-axis motion is installed on described Y-axis motion, its Z axis motion is installed on described X-axis motion, and described contact action bar is installed on described Z axis motion.

3. touch screen terminal test equipment as claimed in claim 2, it is characterised in that described camera support is positioned at the top of described multiaxial motion platform, and described camera support is parallel with described X-axis motion.

4. the touch screen terminal test equipment as described in any one of claims 1 to 3, it is characterised in that be provided with rectangular recess in described touch screen terminal pallet or be provided with snap close,

The width of described rectangular recess is more than the width of tested touch screen terminal, the length of described rectangular recess is more than the length of tested touch screen terminal, the camera lens of described industrial camera is towards described rectangular recess, and described snap close for being locked in described touch screen terminal pallet by tested touch screen terminal.

5. touch screen terminal test equipment as claimed in claim 1, it is characterised in that including two industrial cameras, in said two industrial camera, at least one is high-speed industrial camera.

6. touch screen terminal test equipment as claimed in claim 1, it is characterised in that the kinetic control system of described multiaxial motion platform and the control system of taking pictures of described industrial camera are connected with test control center.

7. touch screen terminal test equipment as claimed in claim 1, it is characterized in that, also include that shell, described framework, described multiaxial motion platform, described touch screen terminal pallet, described contact action bar and at least one industrial camera described are respectively positioned on described enclosure.

8. touch screen terminal test equipment as claimed in claim 1, it is characterised in that also including that dark slide, described dark slide are installed on described framework, at least one industrial camera described is positioned under described dark slide.