CN213336821U

CN213336821U - Test module

Info

Publication number: CN213336821U
Application number: CN202022312485.1U
Authority: CN
Inventors: 向玉才; 韦黄镇; 祝国昌; 张琛星
Original assignee: Optofidelity High Tech Zhuhai Ltd
Current assignee: Optofidelity High Tech Zhuhai Ltd
Priority date: 2020-10-16
Filing date: 2020-10-16
Publication date: 2021-06-01
Anticipated expiration: 2030-10-16

Abstract

The utility model aims at providing a test module of efficiency of software testing height, detection range wide and safe and reliable. The utility model discloses a mounting panel, capability test subassembly and removal anchor clamps module, the capability test subassembly with it all sets up to remove the anchor clamps module on the mounting panel, it includes rectilinear movement subassembly, movable plate, panel turnover mechanism and activity support plate to remove the anchor clamps module, the rectilinear movement subassembly drives the movable plate is in make reciprocal linear motion on the mounting panel, the activity support plate passes through panel turnover mechanism rotates the setting and is in on the movable plate, be equipped with the spread groove with product anchor clamps looks adaptation on the activity support plate, be equipped with on the mounting panel with the activity opening of activity support plate looks adaptation. The utility model discloses be applied to test equipment's technical field.

Description

Test module

Technical Field

The utility model discloses be applied to test equipment's technical field, in particular to test module of product is worn to intelligence.

Background

Under the trend of increasing popularity of smart wearable products, more and more products such as smart watches are entering the market. The intelligent wearable product generally has the characteristics of a touch screen for displaying, function side keys, a heart rate test, a gyroscope for motion detection and the like, and the product needs to be subjected to performance detection before being packaged. Most of the existing test equipment tests a certain function of a product, and tests with different performance indexes are carried out by frequent transportation, so that the test efficiency is low. For example, chinese patent publication No. 108509303a discloses a fast touch screen linear tester, which fixes a screen to be tested by a suction cup, and a three-axis moving mechanism drives a touch head and a camera to move for testing, so that the whole volume is large, only few functions can be tested, and it is inconvenient to intelligently wear a small screen test of a product. There are also devices on the market that can perform a small number of function set tests, but most of them are static function tests, however, because the test of the gyroscope requires the product to perform certain range of actions, the existing test of the gyroscope of the product cannot be compatible.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that overcome prior art not enough, provide a efficiency of software testing is high, detection range is wide and safe and reliable's test module.

The utility model adopts the technical proposal that: the utility model discloses a mounting panel, capability test subassembly and removal anchor clamps module, the capability test subassembly with it all sets up to remove the anchor clamps module on the mounting panel, it includes rectilinear movement subassembly, movable plate, panel turnover mechanism and activity support plate to remove the anchor clamps module, the rectilinear movement subassembly drives the movable plate is in make reciprocal linear motion on the mounting panel, the activity support plate passes through panel turnover mechanism rotates the setting and is in on the movable plate, be equipped with the spread groove with product anchor clamps looks adaptation on the activity support plate, be equipped with on the mounting panel with the activity opening of activity support plate looks adaptation.

According to the scheme, the performance testing assembly is used for testing functions of a touch screen, function side keys, heart rate tests and the like of the intelligent wearable device. The movable carrier plate is used for limiting and fixing the product clamp, and the product clamp is used for limiting the intelligent wearable product to be tested. The turning plate mechanism drives the movable support plate to rotate, so that the gyroscope on the intelligent wearable product is triggered, and the function of the gyroscope is tested. Meanwhile, the movable opening is arranged to provide sufficient action space for the movable carrier plate. The product clamp is limited by arranging the connecting grooves on the movable support plate. By integrating functions of the touch screen, the function side keys, the heart rate test, the gyroscope test and the like, the test efficiency of the intelligent wearable product is effectively improved, and the compatibility between the static test and the dynamic test is realized.

The turning plate mechanism comprises a driving cylinder and a pair of rotating shaft assemblies, each rotating shaft assembly comprises a rotating shaft and a rotating seat, the rotating shafts are in rotating fit with the rotating seats, the rotating seats are fixed on the moving plate, the rotating shafts of the two rotating shaft assemblies are fixedly connected with two end angles of the movable carrier plate respectively, the axes of the rotating shafts of the two rotating shaft assemblies are overlapped, the driving cylinder is fixed on the moving plate, a shifting block is arranged at the end part of one rotating shaft, and a pushing block matched with the shifting block is arranged on the driving cylinder.

According to the scheme, the movable carrier plate can rotate along the axis of the rotating shaft by arranging the two rotating shaft assemblies. Through drive actuating cylinder drives the ejector pad action, make shifting block atress drive the axis of rotation rotates, reaches to drive movable support plate rotates the effect for intelligence is worn the product and is followed the test that the motion carries out the gyroscope function.

The further preferred scheme is that one end of the shifting block, which is far away from the rotating shaft, is provided with a rotating bearing, and the pushing block is provided with a floating limit groove matched with the rotating bearing.

According to the scheme, the abrasion between parts is reduced in a mode that the rotating bearing is matched with the limiting groove, and the service life of the plate turnover mechanism is prolonged. The depth of the floating limiting groove is matched with the position of the rotating bearing when the rotating bearing rotates to the lowest point.

In a further preferred embodiment, the panel turnover mechanism further comprises a supporting block, and the supporting block is matched with one of the remaining end corners of the movable carrier plate.

According to the scheme, the supporting blocks are arranged to support and limit the movable carrier plate, so that the safety and the stability are improved.

In a further preferable scheme, a sensor matched with the movable carrier plate is arranged on the supporting block.

According to the scheme, the sensor is used for detecting the posture of the movable carrier plate, so that the movable carrier plate is ensured to be kept in a horizontal state when other function tests are carried out, and the test result is ensured to be accurate and reliable.

According to a preferable scheme, a plurality of guide holes are formed in the connecting groove, and a plurality of limiting guide pillars which are matched with the guide holes in a one-to-one correspondence mode are arranged at the bottom of the product clamp.

According to the scheme, the guide holes are matched with the limiting guide pillars, so that the product clamp is reliably fixed on the movable carrier plate in the test process.

One preferred scheme is, the capability test subassembly includes touch head module, industry camera and a plurality of rhythm of the heart emulation ware, the touch head module includes sharp actuating mechanism, touch subassembly and button subassembly, sharp actuating mechanism sets up the top of movable plate, be equipped with the fixed plate on sharp actuating mechanism's the expansion end, touch subassembly button subassembly and industry camera all fixes on the fixed plate, a plurality of the rhythm of the heart emulation ware is all fixed just be located on the mounting panel the below of movable plate, touch subassembly button subassembly and a plurality of the rhythm of the heart emulation ware all with the product cooperation that awaits measuring on the product anchor clamps.

According to the scheme, the industrial camera is used for detecting the color standard of the product screen. The heart rate simulator is used for simulating heart rate and testing the heart rate detection function of the intelligent wearable product. The touch assembly is used for detecting the performance of the touch screen, and the button assembly is used for detecting the performance of the function side button. The linear driving mechanism is an electric cylinder or a common linear power mechanism.

The touch assembly comprises a first down-pressure cylinder and a plurality of touch pens, the touch pens are all fixed on the movable end of the first down-pressure cylinder and comprise ejector rods and capacitance pen points, and the capacitance pen points are connected with the ejector rods through magnetic attraction structures.

According to the scheme, the first pressing cylinder drives the touch pen to lift, so that displacement and pressing actions are achieved. Through ejector pin and the electric capacity nib that adopt magnetism to inhale the structural connection, can carry out self-adaptation's adjustment when realizing that electric capacity nib and other structures bump, avoid influencing actuating mechanism's structure through the mode of buffering or dropping, be convenient for touch partial maintenance and change. The capacitance pen point is used for testing the touch screen.

A further preferred scheme is that the key assembly comprises a second lower air cylinder and a plurality of pressing rods, the pressing rods are fixed to the movable end of the second lower air cylinder, and pressing blocks matched with a product to be tested are arranged at the end portions of the pressing rods.

According to the scheme, the second pressing cylinder drives the pressing rod to lift, and the linear driving mechanism drives the pressing rod to press the functional side key.

The heart rate simulator is characterized in that a plurality of product clamping grooves are formed in the product clamp, and light through holes matched with the heart rate simulator are formed in the bottom of each product clamping groove.

According to the scheme, the light through holes are formed, so that the intelligent wearable product can detect the analog signals of the heart rate simulator.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic perspective view of the working state of the present invention;

FIG. 3 is a schematic perspective view of the touch head module;

FIG. 4 is a schematic perspective view of the movable clamp module in an operating state;

FIG. 5 is a schematic perspective view of the moving clamp module;

fig. 6 is a schematic perspective view of the flap mechanism.

Detailed Description

As shown in fig. 1 to 6, in this embodiment, the utility model discloses a mounting panel 1, capability test subassembly 2 and removal anchor clamps module 3, capability test subassembly 2 with it all sets up to remove anchor clamps module 3 on the mounting panel 1, it includes rectilinear movement subassembly 31, movable plate 32, panel turnover mechanism 33 and activity support plate 34 to remove anchor clamps module 3, rectilinear movement subassembly 31 drives the movable plate 32 is in make reciprocal linear motion on the mounting panel 1, activity support plate 34 passes through panel turnover mechanism 33 rotates and sets up on the movable plate 32, be equipped with the spread groove 36 with product anchor clamps 35 looks adaptation on the activity support plate 34, be equipped with on the mounting panel 1 with the activity opening 11 of activity support plate 34 looks adaptation.

In this embodiment, the panel turnover mechanism 33 includes a driving cylinder 331 and a pair of rotating shaft assemblies, each rotating shaft assembly includes a rotating shaft 332 and a rotating base 333, the rotating shaft 332 is rotatably fitted on the rotating base 333, the rotating base 333 is fixed on the moving panel, the rotating shafts 332 of the two rotating shaft assemblies are respectively fixedly connected with two end angles of the movable carrier panel 34, the axes of the rotating shafts 332 of the two rotating shaft assemblies are overlapped, the driving cylinder 331 is fixed on the moving panel 32, one of the rotating shafts 332 has an end provided with a shifting block 334, and the driving cylinder 331 is provided with a pushing block 335 engaged with the shifting block 334.

In this embodiment, a rotating bearing 336 is disposed at an end of the shifting block 334 away from the rotating shaft 332, and a floating limiting groove 337 that is engaged with the rotating bearing 336 is disposed on the pushing block 335.

In this embodiment, the flap mechanism 33 further includes a supporting block 338, and the supporting block 338 is engaged with one of the remaining end corners of the movable carrier plate 34.

In this embodiment, the supporting block 338 is provided with a sensor 339 which is matched with the movable carrier plate 34.

In this embodiment, the connecting groove 36 is provided with a plurality of guide holes, and the bottom of the product clamp 35 is provided with a plurality of limiting guide pillars correspondingly matched with the guide holes one by one.

In this embodiment, performance test subassembly 2 includes touch head module, industry camera 21 and two heart rate simulators 22, the touch head module includes sharp actuating mechanism 23, touch subassembly 24 and button subassembly 25, sharp actuating mechanism 23 sets up the top of movable plate 32, be equipped with the fixed plate on the expansion end of sharp actuating mechanism 23, touch subassembly 24 button subassembly 25 and industry camera 21 all fixes on the fixed plate, two heart rate simulator 22 all fixes just be located on the mounting panel 1 the below of movable plate 32, touch subassembly 24 button subassembly 25 and two heart rate simulator 22 all with the product cooperation that awaits measuring on the product anchor clamps 35.

In this embodiment, the touch component 24 includes a first down-pressure cylinder 241 and two sets of touch pens, the two sets of touch pens are both fixed on the movable end of the first down-pressure cylinder 241, the touch pens include a top rod 242 and a capacitive pen point 243, and the capacitive pen point 243 is connected with the top rod 242 through a magnetic attraction structure.

In this embodiment, the key assembly 25 includes a second down-pressing cylinder 251 and two sets of pressing rods 252, the two sets of pressing rods 252 are both fixed on the movable end of the second down-pressing cylinder 251, and the end of the pressing rod 252 is provided with a pressing block 253 matched with a product to be tested.

In this embodiment, be equipped with six product card grooves, six on the product anchor clamps 35 the product card groove is the matrix and distributes, the bottom of product card groove be equipped with heart rate simulator 22 complex logical unthreaded hole.

The utility model discloses a theory of operation:

the operator inserts the product clamp 35 loaded with the product to be tested into the connecting groove 36, so that the limiting guide post and the guide hole are matched.

After the test is started, the linear moving assembly 31 drives the moving plate 32 to move to the lower side of the linear driving mechanism 23, the linear driving mechanism 23 drives the touch assembly 24 to move to the upper side of the product clamp 35, the first pressing cylinder 241 drives the touch pen to descend, the linear driving mechanism 23 assists in performance test of the touch screen, two products are tested at one time, and test of six products is completed for three times. In the same way, the key assembly 25 is assisted by the linear driving mechanism 23 to perform the pressing test of the functional side key. In the above test process, the two heart rate simulators 22 located below the moving plate 32 perform heart rate simulation to enable the product to receive analog signals, thereby completing the test of the heart rate function.

When the gyroscope is tested, the linear moving assembly 31 drives the moving plate 32 to move above the movable opening 11, the driving cylinder 331 repeatedly extends and retracts to drive the movable carrier plate 34 to rotate, and one end of the movable carrier plate 34 far away from the supporting block 338 passes through the movable opening 11 when rotating. The product to be tested moves along with the movement to trigger the gyroscope, so that the gyroscope is tested.

After all tests are completed, the linear motion assembly 31 is reset, and the operator takes out the product clamp 35 and inserts a new product to be tested.

Claims

1. A test module is characterized in that: it includes mounting panel (1), capability test subassembly (2) and removes anchor clamps module (3), capability test subassembly (2) with it all sets up to remove anchor clamps module (3) on mounting panel (1), it includes rectilinear movement subassembly (31), movable plate (32), panel turnover mechanism (33) and activity support plate (34) to remove anchor clamps module (3), rectilinear movement subassembly (31) drives movable plate (32) are in make reciprocal linear motion on mounting panel (1), activity support plate (34) are passed through panel turnover mechanism (33) rotate and set up on movable plate (32), be equipped with on activity support plate (34) with connecting groove (36) of product anchor clamps (35) looks adaptation, be equipped with on mounting panel (1) with activity opening (11) of activity support plate (34) looks adaptation.

2. A test module according to claim 1, wherein: the plate turnover mechanism (33) comprises a driving cylinder (331) and a pair of rotating shaft assemblies, each rotating shaft assembly comprises a rotating shaft (332) and a rotating seat (333), the rotating shaft (332) is in rotating fit with the rotating seat (333), the rotating seat (333) is fixed on the moving plate, the rotating shafts (332) of the rotating shaft assemblies are respectively fixedly connected with two end angles of the movable carrier plate (34), the axes of the rotating shafts (332) of the rotating shaft assemblies coincide, the driving cylinder (331) is fixed on the moving plate (32), one of the rotating shafts (332) is provided with a shifting block (334) at the end, and the driving cylinder (331) is provided with a pushing block (335) matched with the shifting block (334).

3. A test module according to claim 2, wherein: one end of the shifting block (334) far away from the rotating shaft (332) is provided with a rotating bearing (336), and the pushing block (335) is provided with a floating limit groove (337) matched with the rotating bearing (336).

4. A test module according to claim 2, wherein: the panel turnover mechanism (33) further comprises a supporting block (338), and the supporting block (338) is matched with the remaining end corner of the movable carrier plate (34).

5. A test module according to claim 4, wherein: and a sensor (339) matched with the movable carrier plate (34) is arranged on the supporting block (338).

6. A test module according to claim 1, wherein: the connecting groove (36) is provided with a plurality of guide holes, and the bottom of the product clamp (35) is provided with a plurality of limiting guide pillars which are correspondingly matched with the guide holes one by one.

7. A test module according to claim 1, wherein: the performance testing component (2) comprises a touch head module, an industrial camera (21) and a plurality of heart rate simulators (22), the touch head module comprises a linear driving mechanism (23), a touch component (24) and a key component (25), the linear driving mechanism (23) is arranged above the moving plate (32), a fixed plate is arranged at the movable end of the linear driving mechanism (23), the touch component (24), the button component (25) and the industrial camera (21) are all fixed on the fixed plate, the plurality of heart rate simulators (22) are all fixed on the mounting plate (1) and are positioned below the moving plate (32), the touch assembly (24), the button assembly (25) and the heart rate simulator (22) are matched with a product to be tested on the product clamp (35).

8. The test module of claim 7, wherein: the touch assembly (24) comprises a first down-pressure cylinder (241) and a plurality of touch pens, the touch pens are fixed to the movable end of the first down-pressure cylinder (241), each touch pen comprises a top rod (242) and a capacitance pen point (243), and the capacitance pen points (243) are connected with the top rods (242) through magnetic attraction structures.

9. The test module of claim 7, wherein: the key assembly (25) comprises a second downward pressing cylinder (251) and a plurality of pressing rods (252), the pressing rods (252) are all fixed to the movable end of the second downward pressing cylinder (251), and the end of each pressing rod (252) is provided with a pressing block (253) matched with a product to be tested.

10. The test module of claim 7, wherein: the product clamp (35) is provided with a plurality of product clamping grooves, and the bottom of each product clamping groove is provided with a light through hole matched with the heart rate simulator (22).