CN115267401A - Quick test system of touch screen and test system of double-finger quick touch screen - Google Patents

Abstract

The application discloses a touch screen quick test system and a test system of a double-finger quick touch screen, based on the implementation scheme of the application, the test technology for simulating the double-finger quick touch screen provided by the application positions an electronic touch screen through a visual positioning system, automatically executes a touch screen test case on the electronic touch screen through a capacitive touch pen of a double-finger quick touch screen device, and tests response time, smoothness, multi-computer interaction, touch screen accuracy, linearity, sensitivity, report rate, jitter, suspension degree, report response time, two-finger lineation and two-finger quick click. Compared with the prior art, the structure is simpler, the test accuracy is higher, the expansibility is higher, and the method is more suitable for large-batch investment on a production line so as to improve the production efficiency and the like.

Description

Quick test system of touch screen and test system of quick touch screen of two fingers

Technical Field

The application relates to the technical field of electronic testing, in particular to a touch screen rapid testing system and a testing system of a double-finger rapid touch screen.

Background

Along with the vigorous development of the electronic touch screen industry, the intellectualization increasingly becomes an important trend of the development of the electronic touch screen industry, and the electronic touch screen also becomes an important link of the intellectualization of mobile phones, flat panels and automobiles. The electronic touch screen provides the most intuitive comfort, entertainment and quality feeling for the user. Therefore, in the development stage of the electronic touch screen, the function and performance test is required for each function.

When the touch screen is detected, an electronic touch screen product needs to be placed on a product positioning device, manual operation is simulated through a testing technology of a double-finger quick touch screen, a touch screen test case is automatically executed, and response time testing, smoothness testing, multi-machine interaction testing, touch screen accuracy testing, linearity testing, sensitivity testing, reporting rate testing, shaking testing, suspension testing and reporting response time testing are carried out.

The conventional electronic touch screen motion testing device in the market is complex to operate, different cases cannot be tested, a method for correspondingly testing the motion device in a one-to-one adaptation mode is needed, and the testing efficiency is low. The test and test method for the electronic touch screen by various domestic intelligent terminal manufacturers does not have a good solution, mainly depends on manual test, and cannot be effectively compatible with different product characteristics.

Disclosure of Invention

The present disclosure provides a system for testing a touch screen and a system for testing a dual-finger touch screen to solve the current problems.

In order to achieve the above object, the present application provides the following techniques:

the application provides a quick test system of touch screen in a first aspect, includes:

a substrate;

the same-rail different-drive motion module device is arranged on the substrate and used for providing a linear motion mode in one direction for the test system;

the linear motor module device is arranged on the same-rail different-drive motion module device and is used for providing a linear motion mode in the other direction for the test system;

the voice coil motor module device is arranged on the linear motor module device and used for performing touch screen test on the electronic touch screen to be detected under the linkage drive of the same-rail different-drive motion module device and the linear motor module device;

and the product positioning device is arranged on one side of the voice coil motor module device and used for positioning the electronic touch screen.

As an optional implementation of the present application, optionally, the in-orbit different-drive motion module device includes:

the guide rail mounting seat is arranged on the substrate;

the first linear guide rail is arranged on the guide rail mounting seat;

the first linear motor is arranged on the guide rail mounting seat and matched with the first linear guide rail;

the sliding block plate is arranged on the first linear guide rail;

the linear motor module device is fixedly arranged on the sliding block plate.

As an optional implementation of the present application, optionally, the in-orbit different-drive motion module apparatus further includes:

the first grating reading head is arranged on the slider plate;

the first grating ruler is arranged on the guide rail mounting seat.

As an optional implementation of the present application, optionally, the linear motor module device includes:

the cross beam is arranged on the sliding block plate of the same-rail different-drive motion module device;

the second linear guide rail is arranged on the cross beam;

the second linear motor is arranged on the cross beam;

the power plate is matched on the second linear guide rail and is connected with a rotor of the second linear motor;

the connecting plate is arranged on the power plate;

the voice coil motor module device is arranged on the connecting plate.

As an optional implementation of the present application, optionally, the linear motor module apparatus further includes:

and the reinforcing plate is arranged on the cross beam and used for fixing the cross beam on the sliding block plate.

As an optional embodiment of the present application, optionally, the reinforcing plate is provided with a pair, and is respectively provided at two ends of the cross beam.

As an optional implementation of the present application, optionally, the linear motor module device further includes:

the second grating reading head is arranged on the connecting plate;

and the second grating ruler is arranged on the cross beam.

As an optional implementation of the present application, optionally, the voice coil motor module apparatus includes:

the voice coil motor module is arranged on a connecting plate of the linear motor module device;

the touch pen mounting flexible device is arranged on the voice coil motor module;

and the capacitive touch pen point is arranged at the tail end of the flexible device for mounting the touch pen.

As an optional embodiment of the present application, optionally, the stylus-mounted flexible device comprises:

the guide cylinder is arranged on the voice coil motor module;

the spring is arranged in the guide cylinder;

the guide shaft is matched in the guide cylinder and is connected with the spring;

and the mark pin is arranged on the guide shaft and moves in the limiting hole on the side wall of the guide cylinder.

The second aspect of the present application provides a system for testing a dual-finger fast touch screen, including:

the touch screen rapid test system according to the first aspect, wherein the touch screen rapid test system includes:

the same-rail different-drive motion module devices are arranged on the substrate in an up-and-down symmetrical mode;

the pair of linear motor module devices are arranged on the two same-rail different-drive motion module devices in a bilateral symmetry manner;

the voice coil motor module devices are arranged on the two linear motor module devices in a bilaterally symmetrical manner;

and the product positioning device is arranged on the substrate between the left voice coil motor module device and the right voice coil motor module device.

Compared with the prior art, this application can bring following technological effect:

based on the implementation scheme, the test technology for simulating the double-finger quick touch screen is provided, the electronic touch screen is positioned through a visual positioning system, a touch screen test case is automatically executed on the electronic touch screen through a capacitive touch pen of the double-finger quick touch screen device, and accordingly response time test, smoothness test, multi-computer interaction test, touch screen precision, linearity, sensitivity, point reporting rate, jitter, suspension degree, point reporting response time test, two-finger lineation test and two-finger quick click test are carried out. Compared with the prior art, the device has the advantages of simpler structure, higher test accuracy and higher expansibility, and is more suitable for mass investment on a production line so as to improve the production efficiency and the like.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, are included to provide a further understanding of the application and to enable other features, objects, and advantages of the application to be more apparent. The drawings and their description illustrate the embodiments of the invention and do not limit it. In the drawings:

FIG. 1 is a schematic diagram of a top view of a touch screen rapid test system according to the present invention;

FIG. 2 is a schematic top view of the same-track different-drive motion module device according to the present invention;

fig. 3 is a schematic three-dimensional structure diagram of the linear motor module device of the present invention;

FIG. 4 is a schematic three-dimensional structure diagram of a voice coil motor module device according to the present invention;

FIG. 5 is a schematic front view of the FIG. 4 embodiment of the present invention;

FIG. 6 is a schematic diagram of a three-dimensional structure of a testing system for a two-finger fast touch screen according to the present invention.

Detailed Description

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only partial embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged under appropriate circumstances in order to facilitate the description of the embodiments of the application herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

In the present application, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", "lateral", "longitudinal", and the like indicate an orientation or positional relationship based on the orientation or positional relationship shown in the drawings. These terms are used primarily to better describe the present application and its embodiments, and are not used to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation.

Moreover, some of the above terms may be used to indicate other meanings besides the orientation or positional relationship, for example, the term "on" may also be used to indicate some kind of attachment or connection relationship in some cases. The specific meaning of these terms in this application will be understood by those of ordinary skill in the art as the case may be.

In addition, the term "plurality" shall mean two as well as more than two.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

Example 1

As shown in fig. 1, a first aspect of the present application provides a touch screen rapid test system, which includes:

a substrate 9; for installing the bearing plate, the same-rail different-drive motion module device 1, the linear motor module device 2, the voice coil motor module device 3 and the product positioning device 4 are installed in a bearing way. The size of which is set according to the test requirements.

The same-track different-drive motion module device 1 is arranged on the substrate 9 and is used for providing a linear motion mode in one direction for the test system; the same-track different-drive motion module device 1 consists of a linear motor, a linear guide rail, a grating reading head and a grating ruler, wherein the linear motor adopts a double-driver and can rapidly move in different directions; under the action of the same-rail different-drive motion module device, the actions of simultaneously operating two fingers on the electronic touch screen and the like can be realized. The same-track different-drive motion module device 1 is equivalent to an X-axis.

The linear motor module device 2 is arranged on the same-rail different-drive motion module device 1 and is used for providing a linear motion mode in the other direction for the test system; the linear motor module device 2 is composed of a linear motor, a linear guide rail, a grating reading head and a grating ruler, and can move rapidly. The linear motor module device 2 is equivalent to a Y-axis and can move along the X-axis direction on the same-rail different-drive movement module device 1.

The voice coil motor module device 3 is arranged on the linear motor module device 2 and used for performing touch screen test on the electronic touch screen to be detected under the linkage drive of the same-rail different-drive motion module device 1 and the linear motor module device 2; the voice coil motor module device 3 can perform cases such as quick clicking and line marking on a touch screen under the coordination of a voice coil motor, a flexible touch pen mounting device, a capacitive touch pen head and the like; under the effect of voice coil motor module device, can click electron touch-sensitive screen fast. Under the action of installing a flexible device through a touch pen, the touch screen can be protected when clicking, marking and separating two fingers are achieved. The voice coil motor module device 3 can move on the linear motor module device 2 along the Y-axis direction. The voice coil motor module device 3 is vertically arranged, and is equivalent to a Z axis, and can drive the capacitive touch pen point on the voice coil motor module device to move along the Z axis.

And the product positioning device 4 is arranged on one side of the voice coil motor module device 3 and used for positioning the electronic touch screen. The product positioning device 4, namely, the pair of vision positioning systems, can be used for positioning the touch screen to be detected.

Specifically, the touch screen is tested, and the touch screen to be tested is positioned through the product positioning device 4, namely, the pair of the visual positioning systems. After positioning, the motion track of the capacitive stylus pen point is calculated, that is, the displacement parameters of the voice coil motor module device 3 moving along the X axis, the Y axis and the Z axis are calculated, so as to realize the positioning motion of the space coordinate. The capacitive touch pen nib can move to the upper part of a preset touch screen detection point under the driving of the same-rail different-drive motion module device 1, the linear motor module device 2 and the voice coil motor module device 3, and detection actions such as clicking, scribing and the like are executed through a touch actuator on the capacitive touch pen nib. The execution mode of the capacitive stylus pen point is not described herein again.

In the present embodiment, the motion modes of the co-rail inter-drive motion module device 1, the linear motor module device 2, and the voice coil motor module device 3 may be motor lead screw drive, electric/hydraulic drive, gear drive, etc., but the linear motor drive mode is preferred in the present embodiment as the linear motion drive mode. The rotor or stator of the linear motor is matched with the linear guide rail to drive the guide rail to move or other moving components to move, and the installation positions and the mode and the real-time principle of the rotor and the stator of the linear motor are not described in detail in this embodiment.

In the above scheme, a set of touch screen rapid test system can be formed by a set of co-rail different-drive motion module device 1, a linear motor module device 2, a voice coil motor module device 3 and a product positioning device 4, and the system is used for testing the screen of the touch screen. The capacitive touch pen point installed on the voice coil motor module device 3 detects the touch screen of the electronic device to be detected on the product positioning device 4 through clicking, scribing and the like by a simulated finger.

If other fingering needs to be simulated to detect the screen, the number of devices of the touch screen rapid test system can be correspondingly configured. As shown in fig. 1, in the present embodiment, a testing system of a dual-finger fast touch screen is preferably adopted, and a paired in-orbit different-drive motion module device 1, a linear motor module device 2, an audio motor module device 3, and a product positioning device 4 are disposed on a substrate, so as to simulate dual fingers to perform detection items such as clicking, scribing, and the like on a touch screen of an electronic device to be detected on the product positioning device 4. By executing the test mode set by the tester, test items such as response time test, fluency test, multi-machine interaction test, touch screen accuracy, linearity, sensitivity, point reporting rate, jitter, suspension degree, point reporting response time test, two-finger scribing test, two-finger quick click test and the like can be performed, and the tester sets the specific test items.

As shown in fig. 2, as an optional embodiment of the present application, optionally, the co-rail and inter-drive motion module apparatus 1 includes:

the guide rail mounting seat 10 is arranged on the substrate 9; the guide rail mounting seat is used for mounting accessories such as a linear guide rail 7, a grating ruler 6 and the like and is fixedly mounted on the upper surface of the substrate 9;

the first linear guide rail 7 is arranged on the guide rail mounting base 10; the first linear guide rail 7 is arranged on the guide rail mounting base 10 in a matching way and used for keeping the moving direction of the module device and bearing the gravity of the module device;

the first linear motor 8 is arranged on the guide rail mounting seat 10 and matched with the first linear guide rail 7; the linear motor is a transmission device which directly converts electric energy into linear motion mechanical energy without any intermediate conversion mechanism, adopts a double-rotor double-driver and can rapidly move in different directions; in this embodiment, the type and specification of the first linear motor 8 are not limited. Preferably, the mover of the first linear motor 8 is fixedly connected to the first linear guide 7.

A slider plate 12 provided on the first linear guide 7; the slider plate is used for mounting the linear motor module device, and the bottom surface of the slider plate is fixedly mounted on the first linear guide rail 7.

The linear motor module device 2 is fixedly installed on the slider plate 12.

After the test is started, the first linear guide rail 7 is driven by the rotor of the first linear motor 8 to drive the slider plate 12 to move in the X direction, so as to drive the linear motor module device 2 arranged on the slider plate to realize the X-axis movement, and indirectly drive the stylus on the voice coil motor module device 3 to move in the X direction.

As shown in fig. 2, in order to detect the displacement parameter. As an optional embodiment of the present application, optionally, the in-orbit different-drive motion module apparatus 1 further includes:

the first grating reading head 5 is arranged on the slider plate 12;

and the first grating ruler 6 is arranged on the guide rail mounting base 10.

The grating reading head is a detection device for recording the number and the position of magnetic waves by adopting an electromagnetic method; the grating ruler is used for detecting the displacement sensors, and the setting positions and the number of the displacement sensors can be set according to the movement direction. In this embodiment, the first grating read head 5 is fixedly mounted on the side surface of the slider plate 12; the first grating ruler 6 is fixedly arranged on the side surface of the guide rail mounting base 10.

The linear motor module device 2 and the voice coil motor module device 3 both adopt the driving mode of the linear motor, so the driving mode and principle are the same as those of the same-rail different-driving motion module device 1, and the Y-axis motion and the Z-axis motion of the touch pen are respectively realized.

As shown in fig. 3, as an optional embodiment of the present application, optionally, the linear motor module device 2 includes:

the beam 14 is arranged on the sliding block plate 12 of the same-rail different-drive motion module device 1; the beam is fixed on a sliding block plate 12 of the same-rail different-drive motion module device 1, and accessories such as a linear guide rail, a linear motor and the like are arranged on the beam;

the second linear guide rail 15 is arranged on the cross beam 14; the second linear guide rail 15 is used for keeping the moving direction of the module device and bearing the gravity of the module device; in this embodiment, at least one second linear guide 15 is provided on the cross member 14. Preferably, two, one on the upper surface of the crossbeam 14, are provided for supporting the power plate 19; and the other beam is arranged on the front side surface of the cross beam 14 in parallel and is used for matching with the supporting connecting plate 20 to improve the bearing capacity of the power plate 19 and the connecting plate 20, so that a large system motion error caused by over-weight bearing is avoided.

The second linear motor 16 is arranged on the cross beam 14; the second linear motor 16 is a transmission device which directly converts electric energy into linear motion mechanical energy without any intermediate conversion mechanism and can rapidly move; the power plate 19 can be driven to move by connecting the mover or the stator thereof with the power plate 19.

A power plate 19 coupled to the second linear guide 15 and connected to a mover of the second linear motor 16; the power plate 19 is connected with a rotor of the second linear motor 16, fixedly connected with the rotor, and supported by a second linear guide rail 15 at the top, and under the driving of the second linear motor 16 and the support of the second linear guide rail 15, the power plate 19 can move on the beam to realize the Y-axis movement.

The connecting plate 20 is arranged on the power plate 19; the connecting plate 20 is used for mounting the voice coil motor module device 3, as shown in fig. 3, the voice coil motor module device 3 needs to be horizontally arranged, and therefore the connecting plate 20 is vertically arranged. In order to avoid the insufficient bearing capacity of the bottom of the connecting plate 20, a second linear guide 15 arranged in the Y direction is provided on the front side surface of the cross beam 14, and the inner side surface of the connecting plate 20 is fitted on the second linear guide 15.

The voice coil motor module device 3 is arranged on the connecting plate 20. The outer side surface of the connecting plate 20 is fixedly provided with the voice coil motor module device 3, and the voice coil motor module device 3 is driven by the connecting plate 20 to move along the Y axis.

As an optional implementation of the present application, optionally, the linear motor module device 2 further includes:

and the reinforcing plate 13 is arranged on the cross beam 14 and used for fixing the cross beam 14 on the slider plate 12.

The reinforcing plate is used for reinforcing the rigidity of the linear motor module device, and as shown in fig. 3, the reinforcing plate 13 is a triangular structure and is a rib plate, one side surface of which is fixed on the front side surface of the cross beam 14, and the other side surface of which is fixed on the slider plate 12. As shown in fig. 3, a pair of reinforcing plates is provided and respectively provided at both ends of the cross member.

Similarly, the linear motor module device 2 also adopts a grating reading head and a grating ruler to realize the detection of the Y-direction displacement.

As an optional implementation of the present application, optionally, the linear motor module device 2 further includes:

the second grating reading head 17 is arranged on the connecting plate 20; in this embodiment, the second grating reading head 17 is fixedly mounted on the inner side surface of the bottom of the connection plate 20;

and the second grating ruler 18 is arranged on the beam 14. The second grating scale 18 is fixedly mounted on the bottom surface of the beam 14.

Voice coil motor module device 3 is for carrying the device of touch-control pen, in order to avoid the touch-control pen to realize great pressure and harm the touch-control screen at the touch-control detection time, has adopted flexible device to carry the touch-control pen to electronic touch-control screen.

As shown in fig. 4 and 5, as an alternative embodiment of the present application, optionally, the voice coil motor module apparatus 3 includes:

the voice coil motor module 21 is arranged on the connecting plate 20 of the linear motor module device 2; the voice coil motor module 21 also adopts a linear motor to realize the motion in the Z-axis direction, and the specific structure thereof can refer to the application structure of the above-mentioned co-rail iso-drive motion module device 1 or linear motor module device 2, which is not described in detail in this embodiment.

The touch pen mounting flexible device 22 is arranged on the voice coil motor module 21; the flexible touch pen mounting device 22 is a flexible device which is matched with components such as a spring, a guide shaft, a guide sleeve, a mark pin and the like, and plays a role in protecting a touch screen;

and the capacitive touch pen point 23 is arranged at the tail end of the touch pen installation flexible device 22. The capacitive stylus tip 23 may be a removable structure that is removably attached to the end of the stylus-mounting flexible device 22.

The capacitive stylus tip 23 may be magnetically attached to the end of the stylus-mounted flexible device 22 to facilitate tip replacement.

As shown in fig. 5, as an alternative embodiment of the present application, optionally, the stylus-mounted flexible device 22 includes:

the guide cylinder is arranged on the voice coil motor module 21;

the spring is arranged in the guide cylinder;

the guide shaft is matched in the guide cylinder and is connected with the spring;

and the mark pin is arranged on the guide shaft and moves in the limit hole on the side wall of the guide cylinder.

The guide cylinder is a horizontally arranged (as shown in fig. 1, horizontally arranged and vertically illustrated in fig. 4/5), a guide shaft connected with a spring is arranged in the guide cylinder, and the guide shaft mark pin is limited to move in the guide cylinder through a limit hole in the side wall of the guide cylinder. The tail end of the guide shaft is connected with the capacitive touch pen point 23, so that when the capacitive touch pen point 23 contacts the touch screen, the spring at the top of the guide shaft can contract to buffer the reaction force of pressure, and the protective effect is achieved.

The flexible device 22 is mounted on the stylus pen, so that the structure is simple, touch detection can be flexibly protected, and damage to the screen due to excessive pressure applied when the screen is clicked by the flexible device 22 mounted on the stylus pen is avoided. The spring can be selected according to the elastic coefficient that needs set for, specifically selects by the tester, does not make the requirement originally.

Example 2

In view of the system for rapidly testing a touch screen provided in embodiment 1, the present embodiment simulates a test of a touch screen using two fingers.

As shown in fig. 6, a second aspect of the present application provides a system for testing a dual-finger fast touch screen, including:

the touch screen rapid test system according to the first aspect, wherein the touch screen rapid test system includes:

the same-rail different-drive motion module devices 1 are arranged on the base plate 9 in an up-and-down symmetrical mode;

the pair of linear motor module devices 2 are arranged on the two same-rail different-drive motion module devices 1 in a bilateral symmetry mode;

the pair of voice coil motor module devices 3 are arranged on the two linear motor module devices 2 in a bilateral symmetry mode;

and the product positioning device 4 is arranged on the base plate 9 between the left voice coil motor module device 3 and the right voice coil motor module device 3.

As shown in fig. 1, a pair of co-rail non-drive motion module devices 1 are symmetrically disposed on a substrate 9, a pair of linear motor module devices 2 are respectively and cooperatively mounted thereon, and a voice coil motor module device 3 is cooperatively mounted on the linear motor module devices 2, so as to construct an enclosed XYZ motion mechanism.

The touch pens carried on the voice coil motor module device 3 are opposite left and right and correspond to the intermediate product positioning device 4. During testing, the electronic product to be tested is placed on the product positioning device 4, after positioning detection is carried out, XYZ action is carried out, the touch pen is moved to the designated detection position, and touch screen detection is carried out. And the two voice coil motor module devices 3 are adopted to simulate the click and zoom tests of the double fingers on the touch screen. After the product positioning device 4 is positioned, the motion track parameters are calculated through a computer, the touch pen carried by the voice coil motor module device 3 reaches the designated position through the XYZ motion mechanism, and the touch screen is clicked and zoomed according to the preset motion track simulation finger, so that the purpose of replacing manual touch control testing is achieved, and the efficiency is greatly improved.

The specific structure and implementation principle of each device described above are specifically referred to in embodiment 1, and this embodiment is not described in detail. The technology of obtaining the screen position point and calculating the motion trajectory by the product positioning device 4 such as a visual camera is not described in detail in this embodiment.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (10)

1. A touch screen rapid test system is characterized by comprising:

a substrate;

the same-rail different-drive motion module device is arranged on the substrate and used for providing a linear motion mode in one direction for the test system;

the linear motor module device is arranged on the same-rail different-drive motion module device and is used for providing a linear motion mode in the other direction for the test system;

the voice coil motor module device is arranged on the linear motor module device and used for performing touch screen test on the electronic touch screen to be detected under the linkage drive of the same-rail different-drive motion module device and the linear motor module device;

and the product positioning device is arranged on one side of the voice coil motor module device and used for positioning the electronic touch screen.

2. The system for rapidly testing a touch screen according to claim 1, wherein the in-orbit and out-of-drive motion module device comprises:

the guide rail mounting seat is arranged on the substrate;

the first linear guide rail is arranged on the guide rail mounting seat;

the first linear motor is arranged on the guide rail mounting seat and matched with the first linear guide rail;

the sliding block plate is arranged on the first linear guide rail;

the linear motor module device is fixedly arranged on the sliding block plate.

3. The system of claim 2, wherein the co-rail inter-drive motion module device further comprises:

the first grating reading head is arranged on the slider plate;

and the first grating ruler is arranged on the guide rail mounting seat.

4. The touch screen rapid test system of claim 1, wherein the linear motor module device comprises:

the cross beam is arranged on the sliding block plate of the same-rail different-drive motion module device;

the second linear guide rail is arranged on the cross beam;

the second linear motor is arranged on the cross beam;

the power plate is matched on the second linear guide rail and is connected with a rotor of the second linear motor;

the connecting plate is arranged on the power plate;

the voice coil motor module device is arranged on the connecting plate.

5. The touch screen rapid test system according to claim 4, wherein the linear motor module device further comprises:

and the reinforcing plate is arranged on the cross beam and used for fixing the cross beam on the slider plate.

6. The touch screen rapid test system according to claim 5, wherein a pair of the reinforcing plates are respectively disposed at two ends of the beam.

7. The touch screen rapid test system according to claim 4, wherein the linear motor module device further comprises:

the second grating reading head is arranged on the connecting plate;

and the second grating ruler is arranged on the cross beam.

8. The touch screen rapid test system according to claim 1, wherein the voice coil motor module device comprises:

the voice coil motor module is arranged on a connecting plate of the linear motor module device;

the touch pen mounting flexible device is arranged on the voice coil motor module;

and the capacitive touch pen point is arranged at the tail end of the flexible device for mounting the touch pen.

9. The touch screen rapid test system of claim 8, wherein the stylus-mounted flexible device comprises:

the guide cylinder is arranged on the voice coil motor module;

the spring is arranged in the guide cylinder;

the guide shaft is matched in the guide cylinder and is connected with the spring;

and the mark pin is arranged on the guide shaft and moves in the limiting hole on the side wall of the guide cylinder.

10. A test system for a two-finger fast touch screen is characterized by comprising:

the touch screen rapid test system of any one of claims 1-9, wherein the touch screen rapid test system comprises:

the same-rail different-drive motion module devices are symmetrically arranged on the substrate from top to bottom;

the pair of linear motor module devices are arranged on the two same-rail different-drive motion module devices in a bilateral symmetry manner;

the voice coil motor module devices are arranged on the two linear motor module devices in a bilaterally symmetrical manner;

and the product positioning device is arranged on the substrate between the left and right voice coil motor module devices.

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