CN115655376A - Full-automatic testing equipment of mouse function - Google Patents

Abstract

The invention discloses a full-automatic mouse function testing device, which relates to the technical field of mouse testing devices and comprises a supporting component for supporting components and placing a mouse, wherein two groups of gear rings are arranged on the supporting component, the mouse is controlled to swing through the gear rings, a rotating component for clamping the mouse and detecting the pressing of each key on the mouse is rotatably arranged on the supporting component, the rotating component can restore the use scene of the mouse, a speed changing component for driving the rotating component to work is arranged on the side edge of the supporting component, the speed changing component can control the rotating speed of the rotating component, and the mouse can be detected more variously.

Description

Full-automatic testing equipment of mouse function

Technical Field

The invention relates to the technical field of mouse testing devices, in particular to a full-automatic testing device for mouse functions.

Background

The mouse is an external input device of a computer, is also an indicator for positioning longitudinal and transverse coordinates of a computer display system, is named after mouse-like, is a commonly used computer input device, can position a cursor on a current screen, and operates screen elements at the position where the cursor passes through by a key and a roller device.

Nowadays, the development of the mouse is changing day by day, various mouse types are developed, and meanwhile, the quality inspection of the mouse is gradually strict, so that an equipment capable of automatically testing the function of the mouse is urgently needed to be designed.

Chinese patent application publication No. CN112414695A discloses a multifunctional accurate rapid detection device for an optical mouse, and particularly relates to a multifunctional accurate rapid detection device for an optical mouse, comprising: a frame; the mounting platforms are arranged on the rack in sequence along the horizontal direction, and positioning seats for positioning and mounting the optical mouse are arranged at the top ends of the mounting platforms; the electric signal connecting mechanism is arranged beside the mounting platform, and the length direction of the electric signal connecting mechanism is consistent with the distribution direction of the mounting platform; the roller rotation pressing mechanism is arranged on the rack and positioned above the mounting platform; the mouse connecting point mechanism is arranged on the rack; the displacement sliding detection mechanism is provided with a plurality of groups, and the plurality of groups of displacement sliding detection mechanisms are sequentially arranged on the plurality of groups of mounting platforms and are positioned below the optical mice.

Disclosure of Invention

In view of the problems in the prior art, the invention provides a full-automatic testing device for mouse functions.

Aiming at the technical problems, the invention adopts the technical scheme that: the utility model provides a full-automatic test equipment of mouse function, includes supporting component, last rotating assembly and the variable speed subassembly of being provided with of supporting component, the last mouse that is provided with of rotating assembly, supporting component include the base, the base on be provided with test bottom plate and solid fixed ring, solid fixed ring on be provided with ring gear two, ring gear three, mounting bracket and ring gear one, ring gear one rotate with solid fixed ring and be connected, ring gear one on be provided with the rotating ring, rotating component including rotating the rolling disc of installing on the rotating ring, the rolling disc on be provided with gear one and multiunit electric jar one, gear one intermittent type and ring gear two, ring gear three meshing, an electric jar expansion end be provided with the mounting panel, the mounting panel on be provided with two sets of side key detection mechanism, button detection mechanism, fixture and a set of gyro wheel detection mechanism, variable speed subassembly including installing the support frame on the mounting bracket, the support frame on be provided with driving motor, be provided with the awl post two on driving motor's the output shaft, the support frame on rotate and be provided with the awl post one, awl post two between the awl post two, cone post on be provided with the coaxial gear three gears, the adjustment mechanism be provided with the spacing mechanism, the slip adjustment frame, the spacing mechanism is connected.

Furthermore, the second gear ring and the third gear ring are both incomplete gear rings, a wire slot is formed in the test bottom plate, and the first conical column and the second conical column are rotatably connected with the mounting frame.

Furthermore, the clamping mechanism comprises a sliding plate which is slidably mounted on the mounting plate, a rack is arranged on the sliding plate, a clamping motor is arranged on the mounting plate, a second gear is arranged on an output shaft of the clamping motor and meshed with the rack, clamping heads are slidably arranged at two ends of the sliding plate, and a first spring is arranged between each clamping head and the corresponding sliding plate.

Furthermore, racks in the two groups of clamping mechanisms are meshed with the second gear, and the two groups of racks are meshed with two sides of the second gear simultaneously.

Further, side key detection mechanism including installing screw motor one on the mounting panel, be provided with screw motor one on the output shaft of screw motor one, the mounting panel on slide and be provided with electric jar two, electric jar two pass through threaded engagement with screw rod one, the activity of electric jar two is served and is slided and be provided with and press post two, press post two on be provided with the movable plate, the activity of electric jar two serve and still be provided with the motor of strikeing, strike and be provided with cam two on the motor output shaft, cam two and movable plate laminating, movable plate and electric jar two between be provided with spring two.

Furthermore, the button detection mechanism including set up the bracing piece on the mounting panel, the bracing piece on be provided with test motor, be provided with cam one on test motor's the output shaft, the bracing piece on rotate and be provided with the swinging arms, the one end that the swinging arms is close to cam one is provided with the promotion post, promotion post and the laminating of cam one, the swinging arms in be provided with lead screw motor two, be provided with lead screw two on the output shaft of lead screw motor two, the swinging arms in slide and be provided with the sliding block, sliding block and the threaded connection of lead screw two, the sliding block rotates and is provided with connecting rod one, rotates on the connecting rod one and is provided with pressing post one, pressing post one and mounting panel sliding connection.

Furthermore, the roller detection mechanism comprises a rotating plate which is rotatably installed on one surface, close to the mouse, of the installation plate, a roller motor is arranged on the rotating plate, and a driving wheel is arranged on an output shaft of the roller motor.

Furthermore, the variable speed subassembly including rotate and install lead screw two on the support frame, the support frame in slide and be provided with the carriage, carriage and two threaded connection of lead screw, spacing install on the carriage, lead screw two pass through the belt and be connected with gear three.

Furthermore, the second screw rod is a reciprocating screw rod.

Furthermore, the mouse comprises a shell, and a first button, a second button, a roller and a plurality of groups of side keys are arranged on the shell.

Compared with the prior art, the invention has the beneficial effects that: (1) The mouse can restore the use process of the mouse, such as scenes of quick shaking, variable speed sliding, mouse beating and the like which are fit for practical use, and improve the standard of mouse detection; (2) The rotating assembly arranged in the invention can test the left and right keys, the side keys and the roller of the mouse at the same time, thereby improving the testing efficiency and comprehensiveness of the mouse; (3) The side key detection mechanism, the clamping mechanism and the roller detection mechanism can be used for testing different types of mice, so that the application range of the mouse testing device is widened.

Drawings

Fig. 1 is a left side view of the overall structure of the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention.

FIG. 3 is a schematic structural view of a support assembly according to the present invention.

FIG. 4 is a schematic view of the installation position of the first ring gear and the rotating ring according to the present invention.

Fig. 5 is a cross-sectional view of the support assembly structure of the present invention.

FIG. 6 is a schematic view of a rotating assembly according to the present invention.

Fig. 7 is a partial structural schematic view of the rotating assembly of the present invention.

Fig. 8 is an enlarged view of the structure at a in fig. 7.

FIG. 9 is a schematic view of the mounting positions of the first screw rod and the second electric cylinder according to the present invention.

FIG. 10 is a schematic view of the installation position of the swing lever and the support lever according to the present invention.

FIG. 11 is a schematic view of the installation position of the rack and the pinion according to the present invention.

FIG. 12 is a schematic view of the installation position of the rotating plate and the mounting plate according to the present invention.

FIG. 13 is a schematic structural view of the shifting unit of the present invention.

FIG. 14 is a cross-sectional view of the transmission assembly of the present invention.

FIG. 15 is a schematic diagram of a mouse according to the present invention.

Reference numerals: 1-a support assembly; 2-a rotating assembly; 3-a speed change assembly; 4-mouse; 101-a base; 102-ring gear one; 103-a test base plate; 104-a fixed ring; 105-a mounting table; 106-ring gear two; 107-ring gear three; 108-a rotating ring; 109-a mounting frame; 201-electric cylinder one; 202-a gripping head; 203-gear one; 204-a rotating disk; 205-a mounting plate; 206-support rods; 207-oscillating lever; 208-pressing the post one; 209-screw rod one; 210-electric cylinder two; 211-slider; 212-Link one; 213-pushing the column; 214-cam one; 215-sliding plate; 216-rack gear; 217-gear two; 218-spring one; 219-cam two; 220-moving the board; 221-pressing column two; 222-spring two; 223-rotating the plate; 224-a drive wheel; 225-screw mandrel two; 301-cone column one; 302-cone column two; 303-a support frame; 304-a drive motor; 305-a carriage; 306-a limiting frame; 307-a drive ring; 308-gear three; 309-belt; 310-a second lead screw; 401-press a key one; 402-button two; 403-a roller; 404-side keys; 405-a housing.

Detailed Description

A specific embodiment of the device according to the invention is described further below with reference to the figures and the exemplary embodiments.

Referring to fig. 1 to 15, the full-automatic mouse function testing device includes a supporting component 1 for supporting each component and placing a mouse 4, a rotating component 2 for clamping the mouse 4 and detecting the pressing of each button on the mouse 4 is rotatably disposed on the supporting component 1, and a speed changing component 3 for driving the rotating component to work is disposed on the side of the supporting component 1.

The supporting component 1 comprises a base 101, a fixing ring 104 and a testing bottom plate 103 are arranged on the base 101, a mounting table 105 is arranged on the fixing ring 104, a second gear ring 106 and a third gear ring 107 are arranged on the mounting table 105, the second gear ring 106 and the third gear ring 107 are incomplete gear rings, a first gear ring 102 is arranged on the fixing ring 104 in a rotating mode, a rotating ring 108 is arranged on the first gear ring 102, a wire slot is formed in the testing bottom plate 103, a mouse 4 is placed on the testing bottom plate 103, a wire of the mouse 4 is placed through the wire slot in the testing bottom plate 103, and the wire of the mouse 4 is inserted into a detection computer to be detected.

The rotating assembly 2 comprises a rotating disc 204 rotatably mounted on a rotating ring 108, a first gear 203 is coaxially arranged on the rotating disc 204, the first gear 203 is intermittently meshed with one of a second gear ring 106 and a third gear ring 107, a plurality of groups of first electric cylinders 201 are arranged at the lower end of the rotating disc 204, a mounting plate 205 is arranged at the movable end of the first electric cylinders 201, a group of sliding plates 215 are arranged at two ends of the mounting plate 205 in a sliding manner, two groups of clamping heads 202 are arranged on the sliding plates 215 in a sliding manner, a first spring 218 is arranged between each clamping head 202 and the corresponding sliding plate 215, each clamping head 202 is intermittently attached to a shell 405, a rack 216 is arranged on each sliding plate 215, a clamping motor is arranged on the mounting plate 205, a second gear 217 is arranged on each clamping motor, the second gear 217 is meshed with a rack 216, the two groups of racks 216 are simultaneously meshed with two sides of the second gear 217, a group of first screw motors are arranged at two sides of the mounting plate 205, and a first screw rod 209 is arranged on an output shaft of the first screw motor, two groups of electric cylinders II 210 are arranged on two sides of the mounting plate 205 in a sliding manner, the electric cylinders II 210 are connected with the screw rod I209 through threads, the movable ends of the electric cylinders II 210 are provided with pressing columns II 221 in a sliding manner, the pressing columns II 221 are provided with a moving plate 220, the movable ends of the electric cylinders II 210 are also provided with a knocking motor, the output shaft of the knocking motor is provided with a cam II 219, the cam II 219 is attached to the moving plate 220, the movable ends of the moving plate 220 and the electric cylinders II 210 are provided with springs II 222, the pressing columns II 221 are intermittently attached to the side keys 404, the mounting plate 205 is provided with two groups of supporting rods 206, the supporting rods 206 are provided with test motors, the output shaft of the test motor is provided with a cam I214, the supporting rod 206 is rotatably provided with a swinging rod 207, one end of the swinging rod 207, which is close to the cam I214, is provided with a pushing column 213, the pushing column 213 is attached to the cam I214, and the swinging rod 207 is internally provided with a screw rod II, a second screw 225 is arranged on an output shaft of the second screw motor, a sliding block 211 is arranged in the swinging rod 207 in a sliding mode, the sliding block 211 is in threaded connection with the second screw 225, a first connecting rod 212 is arranged on the sliding block 211 in a rotating mode, a first pressing column 208 is arranged on the first connecting rod 212 in a rotating mode, the first pressing column 208 is in sliding connection with the mounting plate 205, one group of pressing columns 208 intermittently presses the first key 401, the other group of pressing columns 208 intermittently presses the second key 402, a rotating plate 223 is arranged on one surface, close to the mouse 4, of the mounting plate 205 in a rotating mode, a torsion spring is arranged at the rotating shaft position of the rotating plate 223, a roller motor is arranged on the rotating plate 223, and a driving wheel 224 is arranged on the output shaft of the roller motor.

The speed changing component 3 comprises a support frame 303 installed on the mounting frame 109, a driving motor 304 is arranged on the support frame 303, a second conical column 302 is arranged on an output shaft of the driving motor 304, a first conical column 301 is arranged on the support frame 303 in a rotating mode, a transmission ring 307 is arranged between the first conical column 301 and the second conical column 302, the first conical column 301 and the second conical column 302 are in transmission through the transmission ring 307, the first conical column 301 and the second conical column 302 are in rotating connection with the mounting frame 109, a second lead screw 310 is arranged on the support frame 303 in a rotating mode, a sliding frame 305 is arranged on the support frame 303 in a sliding mode, a limiting frame 306 is arranged on the sliding frame 305, the limiting frame 306 is in sliding connection with the transmission ring 307, the sliding frame 305 is in threaded connection with the second lead screw 310, the second lead screw 310 is connected with a third gear 308 through a belt 309, the third gear 308 is coaxially installed with the first conical column 301, and the third gear 308 is meshed with the first gear ring 102.

The mouse 4 includes a housing 405, and the housing 405 is provided with a first button 401, a second button 402, a scroll wheel 403 and a plurality of sets of side buttons 404.

The working principle is as follows: during operation, place mouse 4 on test bottom plate 103, insert the connecting wire of mouse 4 on detecting the computer through the wire casing on the test bottom plate 103, electricity jar 201 afterwards, electricity jar 201 drives mounting panel 205 and removes, mounting panel 205 drives clamping head 202 and is close to mouse 4, after clamping head 202 and casing 405 bottom surface are close to, start the centre gripping motor, centre gripping motor drives gear two 217 and rotates, gear two 217 drives two sets of racks 216 and removes, two sets of racks 216 drive two sets of sliding plates 215 and are close to, two sets of sliding plates 215 drive clamping head 202 and remove simultaneously, after clamping head 202 and casing 405 laminating, carriage 305 extrudees clamping head 202, afterwards, clamping head 202 stretches spring one 218, accomplish the centre gripping to mouse 4 this moment.

The driving motor 304 is started, the driving motor 304 drives the second conical column 302 to rotate, the second conical column 302 drives the first conical column 301 to rotate through the transmission ring 307, the first conical column 301 drives the third gear 308 to rotate, the third gear 308 drives the first gear ring 102 to rotate, the first gear ring 102 drives the rotating ring 108 to rotate, the rotating ring 108 drives the rotating disc 204 to rotate, the rotating disc 204 drives the first gear 203 to move when moving, the first gear 203 is intermittently meshed with the second gear ring 106 or the third gear ring 107, the rotating direction when the first gear 203 is meshed with the second gear ring 106 is opposite to the rotating direction when the first gear 203 is meshed with the third gear ring 107, the rotating disc 204 is driven to rotate when the first gear 203 rotates, the rotating disc 204 drives the mouse 4 to swing, and the scene that the mouse 4 slides for a long time and swings left and right in the using process is restored.

Meanwhile, when the gear three 308 rotates, the belt 309 drives the screw rod two 310 to rotate, the screw rod two 310 drives the sliding frame 305 to slide on the support frame 303, the sliding frame 305 drives the limiting frame 306 to move, the limiting frame 306 drives the transmission ring 307 to move, the transmission ratio between the cone post two 302 and the cone post one 301 is changed when the transmission ring 307 moves, at this time, the rotation speed of the cone post one 301 is changed, so that the rotation speed of the gear three 308 is changed, after the rotation speed of the gear three 308 driving the gear ring one 102 is changed, the rotation speed of the gear ring one 102 driving the speed change component 3 and the mouse 4 is changed, when the mouse 4 rotates, the electric cylinder one 201 drives the mounting plate 205 to move up and down, and whether the mouse 4 is normal in functions under the condition of speed change operation and under the condition of lifting and placing of the mouse.

When the mounting plate 205 descends, the rotating plate 223 is driven to descend, the driving wheel 224 drives the rotating plate 223 to rotate after the driving wheel 224 is attached to the mouse 4, when the mounting plate 205 stops pressing down, the driving wheel 224 is attached to the roller 403, the roller motor is started at the moment, the roller motor drives the driving wheel 224 to rotate, the driving wheel 224 drives the roller 403 to rotate, and the function of the roller 403 is tested.

When a plurality of groups of side keys 404 are tested, a first lead screw motor is started, the first lead screw motor drives a first lead screw 209 to rotate, the first lead screw 209 drives a second electric cylinder 210 to move, a second electric cylinder 210 is started, the second electric cylinder 210 drives a second pressing column 221 to move, the second pressing column 221 is aligned with a group of side keys 404 through the first lead screw 209 and the second electric cylinder 210, then a knocking motor is started, the knocking motor drives two groups of cams 219 to rotate, the second cams 219 drive a moving plate 220 to move, the moving plate 220 drives the second pressing column 221 to press the side keys 404, the moving plate 220 stretches the second springs 222 when the second pressing column 221 presses the side keys 404, and the moving plate 220 and the second pressing column 221 are reset through the deformation restoring force of the second springs 222 after the pressing is completed.

When a first button 401 and a second button 402 are tested, a test motor is started, the test motor drives a first cam 214 to rotate, the first cam 214 pushes a pushing column 213 to move, the pushing column 213 drives a swinging rod 207 to swing on a supporting rod 206, the swinging rod 207 drives a first connecting rod 212 to rotate when swinging, the first connecting rod 212 drives a first pressing column 208 to slide on an installation plate 205, the first pressing column 208 presses the first button 401 or the second button 402, when mouse models are different, the distances between the first button 401 and the second button 402 and a shell 405 are possibly different, at the moment, a second lead screw motor is started, the second lead screw motor drives a second lead screw 225 to rotate, the second lead screw 225 drives a sliding block 211 to slide in the swinging rod 207, and when the position of the sliding block 211 is adjusted, the range of the sliding distance between the first pressing column 208 and the installation plate 205 is changed, so that the mouse with different types is suitable.

The present invention is not limited to the above-described embodiments, and those skilled in the art will be able to make various modifications without creative efforts from the above-described conception, and fall within the scope of the present invention.

Claims (10)

1. The utility model provides a full-automatic test equipment of mouse function, includes supporting component (1), is provided with rotating assembly (2) and variable speed subassembly (3) on supporting component (1), is provided with mouse (4), its characterized in that on rotating assembly (2): the supporting assembly (1) comprises a base (101), a testing bottom plate (103) and a fixing ring (104) are arranged on the base (101), a second gear ring (106), a third gear ring (107), a mounting frame (109) and a first gear ring (102) are arranged on the fixing ring (104), the first gear ring (102) is rotationally connected with the fixing ring (104), a rotating ring (108) is arranged on the first gear ring (102), the rotating assembly (2) comprises a rotating disc (204) which is rotationally mounted on the rotating ring (108), a first gear (203) and a plurality of groups of first electric cylinders (201) are arranged on the rotating disc (204), the first gear (203) is intermittently meshed with the second gear ring (106) and the third gear ring (107), a mounting plate (205) is arranged at the movable end of the first electric cylinder (201), two groups of side key detection mechanisms, a key detection mechanism, a clamping mechanism and a group of roller detection mechanism are arranged on the mounting plate (205), the speed change assembly (3) comprises a supporting frame (303) mounted on the supporting frame (109), a driving motor (303) is arranged on the supporting frame (304), a cone column (304) is provided with a first motor (301), the conical column I (301) and the conical column II (302) are provided with a transmission ring (307) therebetween, the conical column I (301) is coaxially provided with a gear III (308), the gear III (308) is meshed with the gear ring I (102), the supporting frame (303) is provided with an adjusting mechanism, the adjusting mechanism comprises a limiting frame (306), and the limiting frame (306) is in sliding connection with the transmission ring (307).

2. The full-automatic mouse function testing device of claim 1, wherein: the testing device is characterized in that the second gear ring (106) and the third gear ring (107) are both incomplete gear rings, a wire slot is formed in the testing base plate (103), and the first conical column (301), the second conical column (302) and the mounting frame (109) are rotationally connected.

3. The full-automatic mouse function testing device according to claim 1, characterized in that: the clamping mechanism comprises a sliding plate (215) which is slidably mounted on a mounting plate (205), a rack (216) is arranged on the sliding plate (215), a clamping motor is arranged on the mounting plate (205), a second gear (217) is arranged on an output shaft of the clamping motor, the second gear (217) is meshed with the rack (216), clamping heads (202) are slidably arranged at two ends of the sliding plate (215), and a first spring (218) is arranged between each clamping head (202) and the corresponding sliding plate (215).

4. The full-automatic mouse function testing device according to claim 3, characterized in that: racks (216) in the two groups of clamping mechanisms are meshed with the second gear (217), and the two groups of racks (216) are meshed with the two sides of the second gear (217) simultaneously.

5. The full-automatic mouse function testing device of claim 4, wherein: side key detection mechanism including installing screw motor one on mounting panel (205), be provided with lead screw one (209) on screw motor one's the output shaft, mounting panel (205) go up to slide and be provided with electric jar two (210), electric jar two (210) and lead screw one (209) through threaded engagement, the activity of electric jar two (210) is served and is slided and is provided with and presses post two (221), press post two (221) on be provided with movable plate (220), the activity of electric jar two (210) on still be provided with the motor of strikeing, be provided with cam two (219) on the motor output shaft of strikeing, cam two (219) and movable plate (220) laminating, movable plate (220) and electric jar two (210) between be provided with spring two (222).

6. The full-automatic mouse function testing device of claim 5, wherein: key detection mechanism including setting up bracing piece (206) on mounting panel (205), bracing piece (206) on be provided with the test motor, be provided with cam one (214) on the output shaft of test motor, bracing piece (206) on rotate and be provided with swinging arms (207), the one end that swinging arms (207) are close to cam one (214) is provided with and promotes post (213), promotion post (213) laminate with cam one (214), swinging arms (207) in be provided with lead screw motor two, be provided with lead screw two (225) on the output shaft of lead screw motor two, swinging arms (207) in slide and be provided with sliding block (211), sliding block (211) and lead screw two (225) threaded connection, rotating on connecting rod (211) and being provided with connecting rod one (212), rotating on connecting rod one (212) and being provided with and pressing post one (208), pressing post one (208) and mounting panel (205) sliding connection.

7. The full-automatic mouse function testing device according to claim 6, characterized in that: the roller detection mechanism comprises a rotating plate (223) rotatably installed on one surface, close to the mouse (4), of the installation plate (205), a roller motor is arranged on the rotating plate (223), and a driving wheel (224) is arranged on an output shaft of the roller motor.

8. The full-automatic mouse function testing device according to claim 1, characterized in that: variable speed subassembly (3) including rotating lead screw two (310) of installing on support frame (303), support frame (303) in slide and be provided with carriage (305), carriage (305) and two (310) threaded connection of lead screw, spacing (306) install on carriage (305), two (310) of lead screw pass through belt (309) and be connected with three (308) of gear.

9. The full-automatic mouse function testing device according to claim 8, characterized in that: the second screw rod (310) is a reciprocating screw rod.

10. The full-automatic mouse function testing device according to claim 1, characterized in that: the mouse (4) comprises a shell (405), wherein a first key (401), a second key (402), a roller (403) and a plurality of groups of side keys (404) are arranged on the shell (405).

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