CN211505729U - Mouse performance tester - Google Patents

Abstract

The utility model provides a mouse performance test machine. The mouse performance testing machine comprises a shell, a testing base, a driving mechanism, a testing board and a fixing mechanism, wherein the testing base, the driving mechanism, the testing board and the fixing mechanism are arranged in the shell. The testing base is fixed at the bottom of the shell, and the driving mechanism comprises an upper driving device fixed at the top of the shell and a lower driving device fixed on the testing base. The upper driving device comprises a transverse driving device fixed at the top of the shell and a longitudinal driving device connected with the transverse driving device, the fixing mechanism is fixed on the longitudinal driving device, and the test board is fixed on the lower driving device and is positioned below the fixing mechanism. The mouse moves on the test board under the driving action of the upper driving device, and the lower driving device can drive the test board to move up and down so as to change the distance between the test board and the mouse. The utility model provides a mouse capability test machine can test mouse sliding property and mouse silence interval, and simple structure saves the cost of labor, is fit for manufacturing.

Description

Mouse performance tester

[ technical field ] A method for producing a semiconductor device

The utility model relates to a mouse production auxiliary equipment technical field especially relates to a mouse performance test machine.

[ background of the invention ]

The mouse is an input device of a computer and is also an indicator for positioning longitudinal and transverse coordinates of a computer display system, the mouse is named as a mouse because of being similar to a mouse, the mouse is divided into a mechanical mouse and an optical mouse according to different working principles, and the mechanical mouse mainly comprises a rolling ball, a roller and a grating signal sensor. When a mouse is dragged, the rolling ball is driven to rotate, the rolling ball drives the roller to rotate, and the grating signal sensor arranged at the end part of the roller collects grating signals. Photoelectric pulse signals generated by the sensor reflect displacement changes of the mouse in vertical and horizontal directions, and then the movement of cursor arrows on a screen is controlled through processing and conversion of computer programs.

[ Utility model ] content

At present prior art manual work is tested the mouse performance according to predetermined orbit removal mouse and is wasted time and energy, and the effect is relatively poor, consequently the utility model provides a novel mouse capability test machine is used for solving above-mentioned problem.

A mouse performance tester comprises a shell, a test base arranged in the shell, a driving mechanism, a test board and a fixing mechanism for fixing a mouse, the testing base is fixed at the bottom of the shell, the driving mechanism comprises an upper driving device fixed at the top of the shell and a lower driving device fixed on the testing base, the upper driving device comprises a transverse driving device fixed at the top of the shell and a longitudinal driving device connected with the transverse driving device, the fixing mechanism is fixed on the longitudinal driving device, the test board is fixed on the lower driving device and is positioned below the fixing mechanism, the mouse moves on the test board under the driving action of the upper driving device, the lower driving device can drive the test board to move up and down so as to change the distance between the test board and the mouse.

Preferably, the transverse driving device comprises a transverse guide rail fixedly arranged at the top of the shell, a transverse sliding block arranged on the transverse guide rail and capable of sliding along the transverse guide rail, and a transverse power member for driving the transverse sliding block to slide; the longitudinal driving device comprises a longitudinal guide rail which is fixedly arranged on the transverse sliding block and is perpendicular to the transverse guide rail, a longitudinal sliding block which is arranged on the longitudinal guide rail and can slide along the longitudinal guide rail, and a longitudinal power member for driving the longitudinal sliding block to slide.

Preferably, the transverse power member and the longitudinal power member are any one of a stepping motor and a servo motor.

Preferably, the longitudinal power member includes a first motor, a first guide post spaced apart from the first motor, and a revolving timing belt connecting the motor and the first guide post.

Preferably, the fixing mechanism comprises a fixing rod arranged at an interval with the first guide column, a first limiting ring arranged on the fixing rod, and a left clamp and a right clamp respectively arranged on two sides of the fixing rod.

Preferably, the fixing mechanism comprises five vertical fixing rods for fixing the top and the periphery of the mouse.

Preferably, the test board is a marble test platform.

Preferably, the lower driving mechanism comprises a first fixing plate fixedly arranged with the test plate, a telescopic rod connected with the first fixing plate, a sleeve ring sleeved on the telescopic rod, a second fixing plate arranged with the first fixing plate at an interval, and a second motor used for driving the first fixing plate.

Preferably, the mouse performance testing machine further comprises a computer host, a support for placing the computer host, a display screen and a testing system, the computer host issues a testing command to the testing equipment through the testing system, and a testing result tested by the testing equipment is displayed on the display screen.

Preferably, the test commands include five-direction linear sliding, circle drawing sliding and quiet interval testing.

Compared with the prior art, the upper driving device of the mouse performance testing machine provided by the utility model is provided with the transverse driving device and the longitudinal driving device, so that the linear sliding and circle drawing sliding tests of the mouse are realized; the lower driving device is arranged for testing the silence interval of the mouse, so that the requirement of a customer is met; meanwhile, the mouse performance tester is simple in structure, high in automation degree, capable of saving labor cost and suitable for production and manufacturing.

[ description of the drawings ]

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained without inventive work, wherein:

fig. 1 is a schematic view of a three-dimensional structure of a mouse performance testing machine provided by the present invention;

FIG. 2 is a schematic diagram of an exploded structure of the mouse performance tester shown in FIG. 1;

FIG. 3 is an enlarged view of the structure of area A shown in FIG. 2;

FIG. 4 is an enlarged view of the structure of area A at another angle shown in FIG. 3;

FIG. 5 is a schematic structural view of the securing mechanism shown in FIG. 3;

FIG. 6 is an enlarged view of the structure of the area B shown in FIG. 2;

fig. 7 is an enlarged view of a structure of a region B from another view angle shown in fig. 6.

[ detailed description ] embodiments

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1 and 2, the present invention provides a mouse performance testing machine 100, which includes a housing 10, a testing base 20 disposed in the housing 10, a driving mechanism 30, a testing board 40, a fixing mechanism 60 for fixing a mouse 50, a bracket 70 fixedly connected to the housing 10, a computer motherboard (not shown) disposed on the bracket 70, a display screen (not shown), and a testing system (not shown). The test base 20 is fixed at the bottom of the housing 10, and the driving mechanism 30 includes an upper driving device 31 fixed at the top of the housing 10 and a lower driving device 33 fixed on the test base 20. The upper driving device 31 includes a transverse driving device 311 fixed on the top of the housing 10 and a longitudinal driving device 313 connected to the transverse driving device 311, and the fixing mechanism 60 is fixed on the longitudinal driving device 313. The testing board 40 is fixed on the lower driving device 33 and located below the fixing mechanism 60, the mouse moves on the testing board 40 under the driving action of the upper driving device 31, and the lower driving device 33 can drive the testing board 40 to move up and down to change the distance between the testing board 40 and the mouse 50. The computer host issues a test command through the test system, and a test result is displayed on the display screen. The test commands include five-direction linear sliding, circle drawing sliding and silent interval testing.

Referring to fig. 3 and 4, the driving mechanism 30 includes an upper driving device 31 located above the testing board 40 and a lower driving device 33 located below the testing board 40. The upper driving device 31 includes a transverse driving device 311 and a longitudinal driving device 313 provided on the transverse driving device 311. The transverse driving device 311 includes a transverse guide 3111 fixed on the top of the housing 10, a transverse slider 3113 disposed on the transverse guide 3111 and capable of sliding along the transverse guide 3111, and a transverse power member (not shown) for driving the transverse slider 3113 to slide. The longitudinal driving device 313 includes a longitudinal guide 3131 fixed on the transverse slide 3113 and perpendicular to the transverse guide 3111, a longitudinal slide 3133 arranged on the longitudinal guide 3131 and slidable along the longitudinal guide 3131, and a longitudinal power member 3135 for driving the longitudinal slide 3133 to slide. The lateral power member and the longitudinal power member 3135 are any one of a stepping motor and a servo motor. In this embodiment, the lateral power member is a servo motor, and the longitudinal power member 3135 includes a first motor 3136, a first guide post 3137 spaced apart from the first motor 3136, and a revolving timing belt 3138 connecting the first guide post 3137 with the motor 3136. The upper driving means 31 is used for driving the sliding of the mouse 50 on a plane. Specifically, the upper driving device 31 drives the fixing mechanism 60 to move, the fixing mechanism 60 fixes the mouse 50, and the mouse 50 slides linearly and circularly on the test board 40.

Referring to fig. 5, the fixing mechanism 60 is fixedly connected to the upper driving device 31. In this embodiment, the fixing mechanism 60 includes a fixing rod 61 spaced apart from the first guide post 3137, a first limiting ring 63 disposed on the fixing rod 61, and a left clamp 65 and a right clamp 67 disposed on both sides, respectively. In order to effectively fix the mouse 50, the number of the left clamp 65 and the number of the right clamp 67 are two. Further, the fixing mechanism 60 further includes an accommodating box (not shown) for accommodating the mouse 50, the accommodating box is provided with through holes corresponding to the fixing rod 61, the left clamp 65 and the right clamp 67, and the fixing rod 61, the left clamp 65 and the right clamp 67 penetrate through the through holes to fix the mouse. It should be noted that, in another embodiment, the fixing mechanism 60 includes five vertical fixing rods for fixing the top and the periphery of the mouse 50.

The test board 40 is located below the fixing mechanism 60 and spaced apart from the fixing mechanism, and the mouse 50 moves on the test board 40 under the driving action of the driving mechanism 30. In particular, the test board is a marble board. The lower driving device 33 is fixedly connected to the testing board 40, and the lower driving device 33 can drive the testing board 40 to move up and down.

Referring to fig. 6 and 7, the lower driving device 33 includes a first fixing plate 331 abutting against the test board 50, an extension rod 332 connected to the first fixing plate 331, a sleeve ring 333 sleeved on the extension rod 332, a second fixing plate 334 spaced from the first fixing plate 331, and a second motor 335 for driving the second fixing plate 334. The lower driving device 33 is used for driving the test board 40 to move up and down. Specifically, the second motor 335 drives the telescopic rod 332 to lift and lower to drive the first fixing plate 331, so that the first fixing plate 331 drives the test board 40 to move up and down, thereby separating the test board 40 from the mouse 50 and testing the silent interval of the mouse 50.

The working principle of the mouse performance testing machine 100 is as follows: the upper driving device 31 drives the fixing mechanism 60 to move through the transverse driving device 311 and the longitudinal driving device 313, the fixing mechanism 60 fixes the mouse 50, a computer host issues a test command through the test system, and the mouse 50 performs linear sliding and circle-drawing sliding tests on the test board 40 under the driving of the upper driving device 31; the lower driving device 33 is driven by the second motor 335 to move up and down through the telescopic rod 332 to drive the first fixing plate 331 and further drive the testing board 40 to approach or depart from the mouse 50 and the fixing mechanism, so as to perform the silence interval test of the mouse 50.

Compared with the prior art, the upper driving device 31 of the mouse performance testing machine 100 provided by the utility model is provided with the transverse driving device 311 and the longitudinal driving device 313, so that the linear sliding and circle drawing sliding tests of the mouse 50 are realized; the lower driving device 33 is arranged for testing the silence interval of the mouse 50, so that the requirement of a customer is met; meanwhile, the mouse performance testing machine 100 is simple in structure, high in automation degree, labor cost-saving and suitable for production and manufacturing.

The above embodiments of the present invention are only described, and it should be noted that, for those skilled in the art, modifications can be made without departing from the inventive concept, but these all fall into the protection scope of the present invention.

Claims (10)

1. A mouse performance testing machine is characterized by comprising a shell, a testing base, a driving mechanism, a testing board and a fixing mechanism, wherein the testing base, the driving mechanism, the testing board and the fixing mechanism are arranged in the shell, the testing base is fixed at the bottom of the shell, the driving mechanism comprises an upper driving device fixed at the top of the shell and a lower driving device fixed on the testing base, the upper driving device comprises a transverse driving device fixed at the top of the shell and a longitudinal driving device connected with the transverse driving device, the fixing mechanism is fixed on the longitudinal driving device, the test board is fixed on the lower driving device and is positioned below the fixing mechanism, the mouse moves on the test board under the driving action of the upper driving device, the lower driving device can drive the test board to move up and down so as to change the distance between the test board and the mouse.

2. The mouse performance testing machine of claim 1, wherein the lateral driving device comprises a lateral guide rail fixed on the top of the housing, a lateral slider disposed on the lateral guide rail and capable of sliding along the lateral guide rail, and a lateral power member for driving the lateral slider to slide; the longitudinal driving device comprises a longitudinal guide rail which is fixedly arranged on the transverse sliding block and is perpendicular to the transverse guide rail, a longitudinal sliding block which is arranged on the longitudinal guide rail and can slide along the longitudinal guide rail, and a longitudinal power member for driving the longitudinal sliding block to slide.

3. The mouse performance testing machine according to claim 2, wherein the lateral power member and the longitudinal power member are any one of a stepping motor or a servo motor.

4. The mouse performance testing machine according to claim 2, wherein the longitudinal power member includes a first motor, a first guide post spaced apart from the first motor, and a revolution timing belt connecting the motor and the first guide post.

5. The mouse performance testing machine of claim 4, wherein the fixing mechanism comprises a fixing rod spaced apart from the first guide post, a first limiting ring disposed on the fixing rod, and a left clamp and a right clamp disposed on two sides of the fixing rod respectively.

6. The mouse performance testing machine as claimed in claim 1, wherein the fixing mechanism includes five vertical fixing rods for fixing the top and periphery of the mouse.

7. The mouse performance testing machine according to claim 1, wherein the testing board is a marble testing platform.

8. The mouse performance testing machine of claim 1, wherein the lower driving mechanism comprises a first fixing plate fixedly disposed on the testing plate, a telescopic rod connected to the first fixing plate, a sleeve ring sleeved on the telescopic rod, a second fixing plate spaced apart from the first fixing plate, and a second motor for driving the first fixing plate.

9. The mouse performance testing machine of claim 1, further comprising a host computer, a support for placing the host computer, a display screen, and a testing system, wherein the host computer issues a testing command to the testing device through the testing system, and a testing result measured by the testing device is displayed on the display screen.

10. The mouse performance testing machine according to claim 9, wherein the test commands include five-direction linear sliding, circle drawing sliding, and quiet space testing.

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