CN208819193U - A kind of touch-control performance testing device - Google Patents

Abstract

The utility model relates to a kind of touch-control performance testing devices, including carrying platform；Test equipment, the test equipment include six shaft mechanical arms；Operation portion, the operation portion includes crossbeam, at least a manipulator, needle-like cylinder, the first contact and first motor, the crossbeam first surface is flexibly connected with the six shaft mechanicals arm, the manipulator is flexibly connected with the crossbeam second surface, the needle-like cylinder is set to the manipulator surface, the piston rod of the needle-like cylinder is arranged towards the free end of the manipulator, and first contact is connected to the free end of the piston rod, and the first motor is connect with the needle-like cylinder；Control unit, described control unit are electrically connected with the six shaft mechanicals arm and first motor respectively；Position sensor, the position sensor are electrically connected with the control unit.Implement a kind of touch-control performance testing device of the utility model, it can be achieved that multi-point touch is tested, and is able to achieve more size touch screen touch-control tests.

Description

A kind of touch-control performance testing device

Technical field

The utility model relates to panel test field, in particular to a kind of touch-control performance testing device.

Background technique

It touches at present and interaction market is quite mature, touch-control application is also more and more extensive, and from single-point touch It is converted to multi-point touch, multipoint-touch-technology can be the work of three aspects Task-decomposing, first is that simulation multiple point touching is dynamic Make, second is that multi-point signal is acquired simultaneously, third is that judging the meaning of every road signal, that is, gesture identification, to realize touching The touch action touching multiple fingers of screen identification people while doing, compared to the conventional touch screen for only supporting single-point touch, multi-point touch It can recognize multiple finger contacts of user, and controlling touch screen shows multinomial content simultaneously according to different contact positions.

But current testing device for touch screens is just for single-point touch touch screen, and test item is more single, surveys every time Examination can only support the touch-control of a finger, not can be implemented simultaneously the touch-control test of two or more fingers, in addition, having deposited The touch screen size that is directed to of testing device for touch screens it is relatively fixed, cannot achieve small size to large-sized all standing.

Utility model content

In view of the above problems in the prior art, the purpose of this utility model is to provide a kind of touch-control performance testing device, The touch-control performance testing device can realize the touch-control test of two or more fingers simultaneously, and be able to achieve small size to big ruler The all standing of very little touch screen is tested.

The utility model provides a kind of touch-control performance testing device, including carrying platform, and touch screen to be measured is placed on described On carrying platform；The side of the carrying platform is arranged in test equipment, the test equipment, and the test equipment includes six axis Mechanical arm；Operation portion, the operation portion include crossbeam, at least a manipulator, needle-like cylinder, the first contact and first motor, institute Crossbeam first surface to be stated to be flexibly connected with the six shaft mechanicals arm, the manipulator is flexibly connected with the crossbeam second surface, The needle-like cylinder is set to the manipulator surface, and the free end of piston rod towards the manipulator of the needle-like cylinder is set It sets, first contact is connected to the free end of the piston rod, and the first motor is connect with the needle-like cylinder；Control is single Member, described control unit are electrically connected with the six shaft mechanicals arm and first motor respectively；Position sensor, the position sensor It is electrically connected with the control unit.

Further, the operation portion further includes the second contact, and second contact is set to the manipulator side, described Second contact is parallel to first contact and is arranged towards the free end of the manipulator.

Further, the operation portion further includes third contact, and the third contact is set to the crossbeam first surface The length extending direction of side short side edge, the third contact towards the crossbeam first surface is arranged.

Further, the operation portion further includes force value sensor and the 4th contact, and the force value sensor is set to described The other side short side edge of crossbeam first surface, length extending direction of the force value sensor towards the crossbeam first surface Setting, the force value sensor are electrically connected with the control unit, and the 4th contact is set to the force value sensor surface.

Further, the operation portion further includes sliding part and the second motor, and the sliding part is equipped with sliding block and limited block, The crossbeam second surface is equipped with sliding rail, and the sliding block of the sliding part is set in the sliding rail, the sliding part with The second motor connection, second motor are electrically connected with the control unit.

Further, crossbeam third surface is equipped with limiting section, and the limited block of the sliding part is with the sliding part It moves and is located at or is detached from the limiting section.

Further, the operation portion is set there are two manipulator, two manipulators pass through respectively the sliding part with The second surface of the crossbeam is flexibly connected, and the distance of two manipulators is 10-200mm.

Further, first contact, the second contact, third contact and the 4th contact are dome-type or cylindrical type, institute The first contact, the second contact, third contact and the 4th contact is stated to be made of brass or electrically conductive polyamide.

Further, the touch-control performance testing device includes two test equipments, and the carrying platform includes the One carrying platform, first carrying platform include the first clamp mechanism, and first clamp mechanism is used for touch screen to be measured It is placed perpendicular to horizontal plane, two test equipments are located at the same side of first carrying platform.

Further, the touch-control performance testing device includes two test equipments, and the carrying platform includes the Two carrying platforms, second carrying platform include the second clamp mechanism, and second clamp mechanism is used for touch screen to be measured It is parallel to horizontal plane placement, two test equipments are located at the two sides of second carrying platform.

Due to above-mentioned technical proposal, the utility model has the following beneficial effects:

By on a robotic arm be equipped with multiple first contacts, the touch-control performance testing device be able to carry out alternately get ready and Parallel scribing line touch-control test；

It is worked by two the second contacts mates of two test equipments, the touch-control performance testing device is able to carry out small The opposite sliding touch of size touch screen is tested；

Sliding by the rotation and manipulator of six shaft mechanical arm of the second contacts mates in crossbeam second surface, the touch-control Performance testing device is able to carry out the picture circle test of different-diameter；

It is worked by two third contacts mates of two test equipments, the touch-control performance testing device is able to carry out greatly The opposite sliding touch of size touch screen is tested；

It is able to carry out sensitive by the way that force value sensor and the 4th contact, the touch-control performance testing device are arranged on crossbeam Spend touch-control test；

By the first carrying platform of setting and the second carrying platform, the touch-control test of different size touch screens can satisfy.

Detailed description of the invention

It, below will be to institute in embodiment or description of the prior art in order to illustrate more clearly of the technical solution of the utility model Attached drawing to be used is needed to be briefly described.It should be evident that the accompanying drawings in the following description is only some of the utility model Embodiment for those of ordinary skill in the art without creative efforts, can also be attached according to these Figure obtains other attached drawings.

Fig. 1 is a kind of structural schematic diagram of touch-control performance testing device provided by the utility model；

Fig. 2 is a kind of structural schematic diagram of touch-control performance testing device provided by the utility model；

Fig. 3 is the structural schematic diagram of test equipment in a kind of touch-control performance testing device provided by the utility model；

Fig. 4 is the structural representation of test equipment operation portion in a kind of touch-control performance testing device provided by the utility model Figure；

Fig. 5 is a kind of test flow chart of touch-control performance testing device provided by the utility model.

In attached drawing:

Six shaft mechanical arm of 1- the first carrying platform the second carrying platform of 2- 3-

4- crossbeam 41- crossbeam first surface 42- crossbeam second surface

43- crossbeam third surface 5- sliding part 6- manipulator

7- needle-like cylinder 8- force value sensor the first contact of 9-

The 4th contact of 10- the second contact 11- third contact 12-

13- the first fixed part 14- the second fixed part the first limiting section of 15-

The second limiting section of 16-

Specific embodiment

In order to make those skilled in the art better understand the scheme of the utility model, below in conjunction with the utility model reality The attached drawing in example is applied, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that described Embodiment is only the embodiment of the utility model a part, instead of all the embodiments.Based on the reality in the utility model Example is applied, every other embodiment obtained by those of ordinary skill in the art without making creative efforts is all answered When the range for belonging to the utility model protection.

It should be noted that the specification and claims of the utility model and term " first " in attached drawing, " Two " etc. be to be used to distinguish similar objects, without being used to describe a particular order or precedence order.It should be understood that using in this way Data be interchangeable under appropriate circumstances, so that the embodiments of the present invention described herein can be in addition to scheming herein Sequence other than those of showing or describe is implemented.In addition, term " includes " and " having " and their any deformation, it is intended that Non-exclusive include in covering.

A kind of touch-control performance testing device provided by the embodiment of the utility model, including carrying platform and test equipment, institute Stating test equipment has two, and as shown in Fig. 1, when carrying out large scale testing touch screen, two test equipments are placed in The same side of the carrying platform, as shown in Fig. 2, when carrying out small size testing touch screen, due to the limit of touch screen size System, two test equipments are respectively placed in the two sides of the carrying platform, and the carrying platform is to be tested for placing Touch screen, the test equipment are used for the touch-control performance of test touch screen；

Wherein, the carrying platform includes the first carrying platform 1 and the second carrying platform 2, and first carrying platform 1 is used It is laid flat in the touch screen for placing larger size, including bottom plate, installation panel, the first clamp mechanism and fixed link, the Floor water It sets, lower surface quadrangle is equipped with idler wheel, and for flexibly moving the bottom plate in test, lower surface of base plate is additionally provided with the first brake Tight device is fixed again for the bottom plate to be moved to behind a certain position, prevents bottom plate when test from shifting, to influence to survey Try accuracy；

In some possible embodiments, the installation panel is set to the upper surface of the bottom plate, the installation vertically Panel front end is fixedly connected with the first clamp mechanism, and first clamp mechanism is for putting touch screen to be measured perpendicular to horizontal plane The reason of setting, being disposed vertically is that touch screen size to be measured is larger, and the horizontal positioned touch screen centre position that easily leads to is sunk, shadow Ring the accuracy of test；

In some possible embodiments, first clamp mechanism lower end is equipped with the first load bearing component, for placing Touch screen to be tested, the upper end of first clamp mechanism are equipped with multirow limit hole, and the limit hole cooperation is equipped with fixed part The fixation member can be set to the limit that do not go together according to the size of touch screen when testing various sizes of touch screen by part Kong Zhong, with the touch screen that fixation is to be tested, a buckle structure is fixedly installed in the left and right sides of first clamp mechanism respectively, After the touch screen is fixed on first clamp mechanism, the buckle structure prevents touch screen for blocking the touch screen It dumps forward；

In some possible embodiments, the fixed link has two, and every described fixed link one end is fixed on described Panel rear end is installed, the other end is fixed on the plate upper surface, supports the installation panel for stablizing；

In some possible embodiments, second carrying platform 2 is used to place the touch screen of smaller size, including Cabinet, mobile mechanism and the second clamp mechanism, the cabinet is horizontal positioned, and lower surface quadrangle is equipped with idler wheel, for surveying The cabinet is flexibly moved when examination, cabinet lower surface is additionally provided with the tight device of the second brake, for the cabinet to be moved to a certain position It postpones and is fixed again, prevent cabinet when test from shifting, to influence test accuracy, the cabinet upper surface sets that there are two flat Capable first sliding groove；

In some possible embodiments, the mobile mechanism lower end is equipped with sliding with the first sliding groove matched first Block, the mobile mechanism are moved left and right by the relatively described cabinet of first sliding block；

In some possible embodiments, second clamp mechanism is fixed on the upper end of the mobile mechanism, can be with The mobile mechanism is moved forward and backward, and second clamp mechanism includes upper support bar, lower support bar and the second load bearing component, described Upper support bar and lower support bar are respectively equipped with two, and two lower support bars are arranged in parallel in the upper table of the mobile mechanism Face, two lower support bar upper ends are respectively equipped with second sliding slot；The upper support bar is vertically arranged with the lower support bar, institute It states to be respectively equipped on the downside of the both ends of upper support bar and pass through with matched second sliding block of the second sliding slot, two upper support bars Second sliding block slides in the second sliding slot, to meet the testing requirement of different size touch screens；Second carrying Component is fixed on the upper support bar upper end, has the bottom surface for placing touch screen and for limiting touch screen back-and-forth motion Side.

As shown in Fig. 3, the test equipment includes operation portion, six shaft mechanical arms 3, pedestal, position sensor and control Unit, the operation portion are connect with six shaft mechanicals arm, the 3 upper end tip, and six shaft mechanicals arm, 3 lower end and the pedestal connect It connects, the operation portion is for simulating manpower in the operation of touch screen surface, and the six shaft mechanicals arm 3 is for making the operation portion exist Six dimension activities, the pedestal for steadily placing the test equipment, described control unit respectively with the operation portion, machine Tool arm and position sensor electrical connection, described control unit is for controlling operation portion and mechanical arm activity, the position sensor For providing the location information of the operation portion and six shaft mechanical arms 3 to control unit；

Wherein, as shown in Fig. 4, the operation portion include crossbeam 4, sliding part 5, manipulator 6, needle-like cylinder 7, contact, Force value sensor 8, first motor and the second motor, the crossbeam 4 are flexibly connected with the six shaft mechanicals arm 3, the manipulator 6 It is flexibly connected by the sliding part 5 with the crossbeam 4, the needle-like cylinder 7 is set to 6 surface of manipulator, the needle-like The piston rod of cylinder 7 is arranged towards the free end of the manipulator 6, and the contact includes the first contact 9, the second contact 10, the Three contacts 11 and the 4th contact 12, the contact are dome-type or cylindrical type, and the contact is by brass or electrically conductive polyamide Composition, first contact 9 are connected to the free end of the piston rod, and the first motor is connect with the needle-like cylinder 7；

In some possible embodiments, the crossbeam first surface 41 passes through fixing piece with the six shaft mechanicals arm 3 It is fixedly connected, the crossbeam 4 can carry out 360 degree rotation, the crossbeam the by center axis of the tip of the six shaft mechanicals arm 3 Two surfaces 42 are equipped with sliding rail, movement of the sliding rail for sliding part 5 in 4 second surface of crossbeam, the crossbeam the The both ends of three surfaces 43 along its length are set there are two the first limiting section 15, and first limiting section 15 is used to consolidate sliding part 5 The both ends of crossbeam 4 are scheduled on, the intermediate position on crossbeam third surface is equipped with two the second limiting sections 16, second limiting section 16, for limiting sliding part 5 in the maximum shift position of crossbeam second surface, prevent two manipulators 6 in left and right from contacting with each other；

In some possible embodiments, the sliding part 5 includes sliding block and limited block, and the sliding block is set to the cunning In dynamic rail road, for driving the sliding part 5 mobile in crossbeam second surface, the limited block can be with the mobile card of sliding part 5 It connects in the first limiting section or the second limiting section, the sliding part 5 is connect with second motor, and second motor is arranged in institute It states inside crossbeam 4, second motor is double acting sub- linear motor, and second motor is electrically connected with the control unit, institute The operation that control unit controls the second motor is stated, second motor drives described two sliding parts 5 in second table of crossbeam Face 42 is slided, and the manipulator 6 is vertical at the crossbeam second surface 42 by sliding part 5, and two manipulators 6 are with two The movement of a sliding part 5 and change distance, the distance between two described manipulators 6 are in 10-200mm；

In some possible embodiments, there are two the manipulator 6 is set, the outer surface point of each manipulator 6 Not She You a fixed plate, the fixed plate is perpendicularly fixed at the outer surface of the manipulator 6, between equal in each fixed plate Square is equipped with 5 needle-like cylinders 7, and the cylinder barrel of the needle-like cylinder 7 is set to the fixed plate backwards to the side table of 6 free end of manipulator The piston rod one end in face, the needle-like cylinder 7 is located in cylinder barrel, and the other end is free end, and the piston rod free end passes through institute The mounting hole in fixed plate is stated, and is located at a side surface of the fixed plate towards 6 free end of manipulator, the needle-like cylinder 7 It is connect with the first motor, the first motor and described control unit electrical connection, described control unit control the piston The movement of bar, the piston rod free end are separately connected first contact 9, first contact 9 with the movement of piston rod and Mobile, when test equipment is in initial state, the piston rod of the needle-like cylinder 7 is pushed into cylinder bosom, described when test The piston rod that control unit controls needle-like cylinder 7 is mobile to its free extreme direction, and first contact 9 is also with the piston rod It is mobile and move, it is alternately got ready and test operations such as scribing line parallel with realizing；

In some possible embodiments, at least one 6 side of manipulator is also fixed with second contact 10, 6 side of manipulator can be the medial surface adjacent with another manipulator 6 as shown in Fig. 5, or far from another The lateral surface of manipulator 6, second contact 10 is parallel with first contact 9, and second contact 10 is towards the machinery The free end of hand 6 is arranged, and when test equipment is in initial state, i.e., it is most deep that the piston rod of the described needle-like cylinder 7 is pushed into cylinder When place, the front end of second contact 10 protrudes from the front end of first contact 9, and second contact 10 can be used for picture Circle test operation, or the second contact 10 of another test equipment of cooperation slide test for carrying out the opposite of small size touch screen；

In some possible embodiments, 41 two sides of crossbeam first surface are respectively equipped with the first fixed part 13 and Two fixed parts 14, first fixed part 13 are set to the side short side edge of the crossbeam first surface 41, and described second is fixed Portion 14 is set to the other side short side edge of the crossbeam first surface 41, and 13 outer surface of the first fixed part is touched equipped with third First 11, the length extending direction of the third contact 11 towards the crossbeam first surface 41 is arranged, second fixed part 14 Outer surface is equipped with force value sensor 8, and the length extending direction of the force value sensor 8 towards the crossbeam first surface 41 is set It sets, the force value sensor 8 is electrically connected with the control unit, and 8 surface of force value sensor is equipped with the 4th contact 12, described Third contact 11 is used to carry out the opposite sliding test of large scale touch screen, and the 4th contact 12 is sensitive for carrying out touch screen Degree test；

In some possible embodiments, the six shaft mechanicals arm 3 includes six servo motors, six servo electricity Machine is electrically connected with the control unit respectively.

Accordingly, touch-control test as shown in Fig. 5 is carried out, selects different carryings according to different touch screen sizes first Platform selects the first carrying platform 1 when touch screen size is larger, at this point, two test equipments are placed on first carrying The second carrying platform 2 is selected, at this point, two test equipments are placed respectively when touch screen size is smaller in the same side of platform 1 In the two sides of second carrying platform 2, then touch screen to be tested is placed on the clamp mechanism of respective carrier platform, And touch screen is adjusted to best test position by adjusting clamp mechanism；

Second step, manipulator 6 calibrate origin, and tester manually adjusts six shaft mechanical arms 3, keeps the 4th contact 12 right The pixel in the quasi- touch screen upper left corner, the 4th contact, which presses to touch screen just, response, at this time the position of the 4th contact The pixel is set as the screen origin (0,0) of touch screen by as mechanical zero (0,0), described control unit；

Third step, test operation required for the collaboration of manipulator 6 carries out, test philosophy is mobile contact to measured position, Test equipment carries out test operation, and the position sensor of test equipment reports the position (X of contact to control unit₁,Y₁), at this time Practical touch point (x of the touch screen by built-in touch sensor on control unit reporting touch screen₁, y₁), by being actually subjected to The multiple positions of measurement are asked, (X is obtained₁,Y₁)…(X_n,Y_n) and (x₁,y₁)…(x_n,y_n), control unit is according to these two types of coordinate bits The single-point for calculating touch screen and multi-point touch performance are set according to corresponding standard；The test item that can be carried out includes: single-point Performance test such as accuracy test, reproducibility or jitter test, linearity test, reproducibility test, vertical touch or hovering test Points, adjacent touch distance, adjacent touch precision, rotation, scaling movement, multiple spot sliding, more are such as touched Deng, multiple spot performance test Point touch-control crosstalk quickly clicks.

Carry out single-point performance test has the first contact 9, the second contact 10 and the 4th contact 12, first contact 9 into When row single-point performance test, the piston rod that described control unit controls some needle-like cylinder 7 is mobile to piston rod free end direction, The piston rod drives corresponding first contact 9 is synchronous to move forward, and first contact 9, which need to be moved to, protrudes from described second The position of contact 10, the first contact 9 of the forward movement carry out under the action of six shaft mechanical arms 3 in touch screen surface as above A variety of single-point performance tests, similarly, each first contact 9 can be carried out the single-point performance test.

Second contact 10 can carry out picture circle test, and when test, second contact 10 is contacted with touch screen, then, The operation portion rotates freely 360 degree under the action of six shaft mechanical arms 3 in the plane for be parallel to touch screen, second touching First 10 realize picture circle on the touchscreen, since the manipulator 6 can slide under the action of sliding part 5, so the second contact 10 The picture circle test of different-diameter can be carried out on the touchscreen, first contact 9 can also carry out similarly drawing circle test, but easily Damage the needle-like cylinder 7.

4th contact 12 is mainly used for sensitivity test, and when test, the 4th contact 12 is in the six shaft mechanicals arm 3 The measured position of lower pressing touch screen, 8 feedback compression dynamics of force value sensor are driven, pressing dynamics characterize the sensitive of touch screen Degree, under the premise of touch screen has reaction, pressing dynamics are smaller, and the sensitivity of touch screen is higher.

Carry out multiple spot performance test has the first contact 9, the second contact 10 and a third contact 11, first contact 9 into When row multiple spot performance test such as multiple spot slides, described control unit controls the piston rod of at least two needle-like cylinders 7 to piston rod Free end is mobile, and the piston rod drives corresponding first contact 9 is synchronous to move forward, so that at least two first contacts 9 It slides on the touchscreen；When first contact 9 carries out alternately getting test ready, described control unit controls at least one manipulator At least two first contacts 9 on 6 are mobile, alternately get test ready to realize.

10 cooperating of the second contact of two test equipments or the third contact 11 of two test equipments are matched When closing work, opposite sliding test such as scaling test, when carrying out small size testing touch screen, two testers can be realized respectively Device is respectively arranged on the two sides of second carrying platform 2, switches touch-control test for convenience, is generally carried out with the second contact 10 small The opposite sliding test of size touch screen, such as the touch-control carried out by the first contact 9 test the touch-control for switching to the second contact 10 Test, operation portion, which does not need rotation, can be carried out, if needing the angle in conversion operation portion with third contact 11；When into When row large scale testing touch screen, two test equipments are set to the side of first carrying platform 1, due to second contact The limitation of 10 positions, the limitation refer to, second contact 10 is located at the side of the manipulator 6, either medial surface or Lateral surface can only carry out longer-distance opposite sliding due to the blocking of crossbeam 4 and manipulator 6, and the third contact 11 to The extending direction of crossbeam first surface 41 is arranged, not by the blocking of the crossbeam 4 and manipulator 6, so generally using third contact 11 carry out the opposite sliding test of large scale touch screen.

Each technical characteristic of above embodiments can be combined arbitrarily, for simplicity of description, not to above-described embodiment In each technical characteristic it is all possible combination be all described, as long as however, the combination of these technical characteristics be not present lance Shield all should be considered as described in this specification.

Above embodiments only express the several embodiments of the utility model, and the description thereof is more specific and detailed, but simultaneously The limitation to utility model patent range therefore cannot be interpreted as.It should be pointed out that for the ordinary skill people of this field For member, without departing from the concept of the premise utility, various modifications and improvements can be made, these belong to this reality With novel protection scope.Therefore, the scope of protection shall be subject to the appended claims for the utility model patent.

Claims (10)

1. a kind of touch-control performance testing device characterized by comprising

Carrying platform, touch screen to be measured are placed on the carrying platform；

The side of the carrying platform is arranged in test equipment, the test equipment, and the test equipment includes:

Six shaft mechanical arms (3)；

Operation portion, the operation portion include crossbeam (4), manipulator (6), needle-like cylinder (7), the first contact (9) and first motor, The crossbeam first surface (41) is flexibly connected with the six shaft mechanicals arm (3), the manipulator (6) and second table of crossbeam Face (42) is flexibly connected, and the needle-like cylinder (7) is set to the manipulator (6) surface, the piston rod court of the needle-like cylinder (7) It is arranged to the free end of the manipulator (6), first contact (9) is connected to the free end of the piston rod, and described first Motor is connect with the needle-like cylinder (7)；

Control unit, described control unit are electrically connected with the six shaft mechanicals arm (3) and the first motor respectively；

Position sensor, the position sensor are electrically connected with the control unit.

2. a kind of touch-control performance testing device according to claim 1, which is characterized in that the operation portion further includes second Contact (10), second contact (10) are set to the manipulator (6) side, and second contact (10) is parallel to described first Contact (9) is simultaneously arranged towards the free end of the manipulator (6).

3. a kind of touch-control performance testing device according to claim 1, which is characterized in that the operation portion further includes third Contact (11), the third contact (11) are set to the side short side edge of the crossbeam first surface (41), the third contact (11) it is arranged towards the length extending direction of the crossbeam first surface (41).

4. a kind of touch-control performance testing device according to claim 1, which is characterized in that the operation portion further includes force value Sensor (8) and the 4th contact (12), the force value sensor (8) are set to the other side short side of the crossbeam first surface (41) The length extending direction at edge, the force value sensor (8) towards the crossbeam first surface (41) is arranged, the force value sensing Device (8) is electrically connected with the control unit, and the 4th contact (12) is set to force value sensor (8) surface.

5. a kind of touch-control performance testing device according to claim 1, which is characterized in that the operation portion further includes sliding Part (5) and the second motor, the sliding part (5) are equipped with sliding block and limited block, and the crossbeam second surface (42) is equipped with sliding rail The sliding block in road, the sliding part (5) is set in the sliding rail, and the sliding part (5) connect with second motor, described Second motor is electrically connected with the control unit.

6. a kind of touch-control performance testing device according to claim 5, which is characterized in that crossbeam third surface (43) Equipped with limiting section, the limited block of the sliding part (5) is located at or is detached from the limiting section with the movement of the sliding part (5).

7. a kind of touch-control performance testing device according to claim 6, which is characterized in that the operation portion is set there are two machine Tool hand (6), two manipulators (6) are flexibly connected by the sliding part (5) with the crossbeam second surface (42) respectively, The distance of two manipulators (6) is 10-200mm.

8. a kind of touch-control performance testing device according to claim 1, which is characterized in that first contact (9), second Contact (10), third contact (11) and the 4th contact (12) are dome-type or cylindrical type, first contact (9), the second contact (10), third contact (11) and the 4th contact (12) are made of brass or electrically conductive polyamide.

9. a kind of touch-control performance testing device according to claim 3, which is characterized in that the touch-control performance testing device Including two test equipments, the carrying platform includes the first carrying platform (1), and first carrying platform (1) includes First clamp mechanism, first clamp mechanism are used to place touch screen to be measured perpendicular to horizontal plane, two testers Device is located at the same side of first carrying platform (1).

10. a kind of touch-control performance testing device according to claim 2 or 3, which is characterized in that the touch-control performance test Device includes two test equipments, and the carrying platform includes the second carrying platform (2), second carrying platform (2) Including the second clamp mechanism, second clamp mechanism is used to for touch screen to be measured to be parallel to horizontal plane and place, two surveys Test instrument is located at the two sides of second carrying platform (2).