CN216285373U - Automatic test fixture of glasses is dressed to intelligence - Google Patents

Automatic test fixture of glasses is dressed to intelligence Download PDF

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Publication number
CN216285373U
CN216285373U CN202122582243.9U CN202122582243U CN216285373U CN 216285373 U CN216285373 U CN 216285373U CN 202122582243 U CN202122582243 U CN 202122582243U CN 216285373 U CN216285373 U CN 216285373U
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glasses
assembly
intelligent wearable
positioning
intelligence
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Chinese (zh)
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张立华
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Huizhou Berger Intelligent Technology Co ltd
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Huizhou Berger Intelligent Technology Co ltd
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Abstract

The utility model discloses an automatic test fixture for intelligent wearable glasses, which comprises: the device comprises a clamping assembly, a driving assembly and a positioning mechanism; the clamping assembly is used for clamping and positioning the intelligent wearable glasses; the glasses positioning device is characterized in that a gray card is arranged on the driving assembly, the driving assembly is used for driving the gray card to correspond to a sensor of the intelligent wearable glasses, and the positioning mechanism is used for adjusting the relative distance between the driving assembly and the sensor of the intelligent wearable glasses relative to the gray card. Drive assembly, grey card, positioning mechanism quantity are two sets ofly, locate respectively centre gripping subassembly both sides, two the sensor that the glasses were dressed to grey card intelligence relatively respectively has a relative distance. Comprises a working platform and an installation box; the clamping assembly and the positioning mechanism are arranged on the working platform. This test fixture aims at wearing glasses function through automatic mechanical component test intelligence, promotes test quality and efficiency of software testing.

Description

Automatic test fixture of glasses is dressed to intelligence
Technical Field
The application relates to the technical field of electronic digital product testing devices, in particular to an automatic testing jig for intelligent wearable glasses.
Background
Note that the contents described in this section do not represent all the related art.
Along with the development of intelligent wearable products, the function of intelligent wireless motion glasses of riding is more and more abundant, has integrateed some sensors on it, control button so that realize the required function of user.
Before the glasses are worn to the intelligence and leave the factory in the packing, need carry out functional test to it to prevent that the defective products from going out of the warehouse. The intelligent wearable glasses are irregular in shape, and the arrangement positions of the sensors and the control keys on the intelligent wearable glasses are irregular, so that the test is complicated; the glasses are intelligently worn by utilizing manual detection, so that the problem that the test error is large, the labor intensity is large, the detection efficiency is low and the quality consistency cannot be ensured due to the fact that human causes are easy to make mistakes is easily caused.
Disclosure of Invention
The utility model mainly aims at the problems and provides an automatic test fixture for intelligent wearable glasses, aiming at testing the intelligent wearable glasses through an automatic mechanical assembly and improving the test quality and the test efficiency.
In order to achieve the above object, the present invention provides an automatic test fixture for intelligent wearable glasses, comprising: the device comprises a clamping assembly, a driving assembly and a positioning mechanism; the clamping assembly is used for clamping and positioning the intelligent wearable glasses; the glasses positioning device is characterized in that a gray card is arranged on the driving assembly, the driving assembly is used for driving the gray card to correspond to a sensor of the intelligent wearable glasses, and the positioning mechanism is used for adjusting the relative distance between the driving assembly and the sensor of the intelligent wearable glasses relative to the gray card.
Furthermore, drive assembly, grey card, positioning mechanism quantity are two sets ofly, locate respectively centre gripping subassembly both sides, two the sensor of the relative intelligence wearing glasses of grey card respectively has a relative distance.
Furthermore, the positioning mechanism comprises a mounting plate, a support guide pillar, a threaded rod and an adjusting nut; the mounting plate is provided with a guide sleeve; the supporting guide pillar penetrates through the guide sleeve and is connected with the supporting plate; the threaded rod penetrates through the mounting plate; the adjusting nut is matched with the threaded rod to position the mounting plate; the drive assembly is mounted to the mounting plate.
Furthermore, the device comprises an indication graduated scale and an indication mark, wherein the indication mark is arranged on the mounting plate; the indication graduated scale is arranged adjacent to the indication mark; the indication graduated scale is matched with the indication mark and used for indicating the relative distance between the driving assembly and the sensor of the intelligent wearing glasses of the gray card.
The guide assembly comprises a bracket arranged on the mounting plate, a linear guide rail arranged on the bracket, a sliding seat in sliding connection with the linear guide rail and a connecting frame; the driving assembly is an air cylinder, one end of the connecting frame is connected with the sliding seat, the other end of the connecting frame is connected with the air cylinder power output end, and the ash card is installed at the air cylinder power output end.
Further, the centre gripping subassembly is including rotatory air cylinder, the location die of pushing down, the location die is equipped with the positioning groove who holds intelligence and dresses glasses, rotatory air cylinder power take off end of pushing down is equipped with the pressure head that is used for pressing intelligence and dresses glasses.
The first key testing assembly comprises a first driving cylinder and a first pressing finger, and the first pressing finger is arranged at the power output end of the first driving cylinder; positioning groove is equipped with the position through-hole of keeping away that corresponds the setting with intelligence dress glasses button, first drive actuating cylinder drive first pressure is pointed to and is worn to establish keep away the position through-hole and press intelligence dress glasses button.
The second key testing assembly comprises a second driving cylinder and a second pressing finger, and the second pressing finger is arranged at the power output end of the second driving cylinder; the location die is equipped with the position recess of keeping away that corresponds the setting with another button of intelligence wearing glasses, the second drives actuating cylinder drive the second is pressed and is pointed to wearing to establish keep away the position recess and press another button of intelligence wearing glasses.
Further, including the signal coupling board that is used for coupling intelligence wearing glasses signal parameter, the quantity of the positioning groove of location die is two.
Further, the device comprises a working platform and an installation box; the clamping assembly and the positioning mechanism are arranged on the working platform.
Compared with the prior art, the automatic test fixture for the intelligent wearable glasses provided by the utility model can clamp and position the clamping component for the intelligent wearable glasses, and can prevent the test result from being inaccurate due to random movement in the test process; utilize positioning mechanism to drive assembly and install grey card on drive assembly and transfer to first test distance, the distance sensor and/or the light sensor of glasses are dressed to intelligence are shielded by grey card. And then, the positioning mechanism is used again to drive the driving assembly and the ash card arranged on the driving assembly to be adjusted to a second testing distance, and the distance sensor and/or the light sensor receive the ash card for a second time to shield the ash card. Compare traditional artifical the measuring, the error is big, intensity of labour is big, detection efficiency is low, and this automatic test fixture tests through automatic mechanical components, has promoted test quality and efficiency of software testing.
Drawings
Fig. 1 is a schematic structural diagram of an automatic test fixture of glasses is dressed to this application intelligence.
Fig. 2 is a layout node explosion diagram of the automatic test fixture of glasses is dressed to this application intelligence.
Fig. 3 is an enlarged view of fig. 2 at a.
Fig. 4 is a three-dimensional cross-sectional view of this application glasses's automatic test fixture is dressed to intelligence.
Fig. 5 is a schematic view of a partial component structure of an automatic test fixture for intelligent wearable glasses according to the present application.
Fig. 6 is a partial assembly diagram of an automatic testing fixture for intelligent wearable glasses according to the present application.
Fig. 7 is a cross-sectional view of the automatic test fixture of glasses is dressed to intelligence of this application.
Reference numerals shown in the drawings: 1. a clamping assembly; 110. rotating the pressing cylinder; 120. positioning the female die; 121. a positioning groove; 122. avoiding a through hole; 123. a position avoiding groove; 130. a pressure head; 140. a support frame; 2. a drive assembly; 210. a cylinder; 4. a position adjusting mechanism; 405. a limiting block; 410. mounting a plate; 420. a support plate; 430. supporting the guide post; 440. a threaded rod; 450. adjusting the nut; 460. indicating a graduated scale; 470. an indication mark; 480. a guide sleeve; 490. a guide assembly; 491. a support; 492. A linear guide rail; 493. a slide base; 494. a connecting frame; 5. ash card; 6. a first key test assembly; 610. a first driving cylinder; 620. a first pressure finger; 7. a second key test assembly; 710. a second driving cylinder; 720. a second pressure finger; 8. a signal coupling board; 10. a working platform; 11. and (5) installing a box.
Detailed Description
The present invention will be described in detail below with reference to the attached drawings, and the technical solutions in the embodiments of the present invention will be clearly and completely described. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1 to 7, the present embodiment provides an automatic testing fixture for intelligent wearable glasses, which includes a clamping assembly 1, a driving assembly 2, and a positioning mechanism 4; the clamping assembly 1 is used for clamping and positioning the intelligent wearable glasses; be equipped with grey card 5 on drive assembly 2, drive assembly 2 is used for driving grey card 5 to the sensor of intelligence wearing glasses and corresponds the position, and positioning mechanism 4 is used for adjusting drive assembly 2 and grey card 5 intelligence relatively and wears glasses sensor relative distance.
Distance sensor and/or light sensor set up on the digital product of electron for detect the relative distance of user's health and digital product of electron and/or shield the state, take bluetooth headset or intelligent wireless motion glasses of riding as an example, distance sensor and/or light sensor are used for responding to whether the user has worn this equipment, and when user's health shielded the distance sensor and/or light sensor of equipment, the discernment was the wearing state, normal work. When the body of the user is far away from the distance sensor and/or the light sensor, the distance sensor and/or the light sensor senses that the user is separated from the device, the device automatically enters a standby mode, the operation is performed with low power consumption, and the electric quantity is saved; and preventing the user from mistakenly touching the keys on the equipment to cause the equipment to generate the operation work which is not supposed to be generated.
Distance sensor and/or light sensor are connected with the mainboard of intelligence wearing product usually, and distance sensor and light sensor's position is adjacent to each other usually, and when distance sensor and/or light sensor itself are unusual, can lead to the unable normal operating of intelligence wearing product, consequently when intelligence wearing glasses before the packing leaves the factory, need test distance sensor and/or light sensor above that.
This automatic test fixture theory of operation: the clamping component 1 for the intelligent wearable glasses is clamped and positioned, so that the situation that the test result is inaccurate due to random movement in the test process is prevented; the positioning mechanism 4 is utilized to drive the driving assembly 2 and the ash card 5 installed on the driving assembly 2 to be adjusted to a first testing distance, the first testing distance is a first distance between the ash card 5 and the distance sensor and/or the light sensor, which is set when the driving assembly 2 drives the ash card 5 to reach the corresponding position of the distance sensor and/or the light sensor of the intelligent wearable glasses; the distance sensor and/or the light sensor of the intelligent wearable glasses are/is shielded by the gray card 5.
Then, the positioning mechanism 4 is used again to drive the driving component 2 and the ash card 5 arranged on the driving component 2 to be adjusted to a second testing distance, wherein the second testing distance is a second distance between the set ash card 5 and the distance sensor and/or the light sensor; the distance sensor and/or the light sensor of the intelligent wearable glasses are shielded by the gray card 5 for the second time. The mainboard of glasses is dressed to intelligence sends distance sensor and/or light sensor operation work information to test system (not shown), and test system carries out the analysis with the different distances of two grey card 5 distance sensors and/or light sensor and/or shielding state information, judges distance sensor and/or light sensor whether normal work. The test finishes, and drive assembly 2 drives grey card 5 and leaves the position that centre gripping subassembly 1 centre gripping location intelligence was dressed glasses, gets back to initial position and keeps away the position, makes things convenient for intelligence to dress glasses and takes out from centre gripping subassembly 1 to and make things convenient for next intelligence to dress and test in the centre gripping subassembly 1 of packing into of glasses. Compared with traditional manual detection, the automatic test fixture has the advantages of large error, large labor intensity and low detection efficiency, and the automatic test fixture tests through the automatic mechanical assembly, so that the test quality and the test efficiency are improved, the manual labor intensity is greatly reduced, and the cost is saved.
Referring to fig. 1 and 5, the number of the driving assembly 2, the number of the gray cards 5, and the number of the positioning mechanisms 4 are two, and the driving assembly, the gray cards 5, and the positioning mechanisms are respectively disposed on two sides of the clamping assembly 1, and the two gray cards 5 respectively have a relative distance with respect to the distance sensor and/or the light sensor of the intelligent wearable glasses.
In a more preferred embodiment, the distance sensor and/or the light sensor of the intelligent wearable glasses in the clamping component 1 are tested through the two sets of driving components 2, the gray card 5 and the positioning mechanism 4, the relative distance between the driving components 2 and the gray card 5 when reaching the corresponding position of the distance sensor and/or the light sensor of the intelligent wearable glasses is preset by the two positioning mechanisms 4 respectively, for example, the first positioning mechanism 4 is adjusted, so that when the driving components 2 drive the gray card 5 to reach the corresponding position of the distance sensor and/or the light sensor, the first gray card 5 is slightly far away from the light sensor and/or the distance sensor; adjusting a second group of positioning mechanisms 4 on the other side of the clamping assembly 1, so that when the driving assembly 2 of the group drives the ash card 5 to reach the position corresponding to the light sensor and/or the distance sensor, the second group of ash cards 5 are slightly closer to the light sensor and/or the distance sensor; therefore, the first group of gray cards 5 are driven by the driving assembly 2 to reach the corresponding positions of the light sensors and/or the distance sensors to shield the light sensors and/or the distance sensors, and the testing system receives information detected by the intelligent wearable glasses light sensors and/or the distance sensors shielded by the first group of gray cards 5; need not readjust positioning mechanism 4 this moment again, second group's ash card 5 is by drive assembly 2 direct drive arrival light sensor and/or distance sensor corresponding position, shields light sensor and/or distance sensor, and test system receives second group's ash card 5 and shields intelligent wearing glasses light sensor and/or distance sensor for the second time, and the information that light sensor and/or distance sensor that intelligence was dressed glasses mainboard feedback detected tests.
Compare and only set up a set of drive assembly 2, grey card 5, positioning mechanism 4, test grey card 5 shields the light sensor and/or the distance sensor of intelligence wearing glasses for the first time, mechanism 4 is to drive assembly 2 through the positioning, grey card 5 removes, adjust grey card 5 and the accurate precision of light sensor and/or the distance sensor relative distance of intelligence wearing glasses, shield for the second time, it is difficult to guarantee grey card 5 and the accurate precision of intelligence wearing glasses, and then the information that leads to test system received light sensor and/or distance sensor to respond to appears the deviation, the error appears easily in this kind of mode, lead to the erroneous judgement, inefficiency. This scheme is through setting for two sets of drive assembly 2 with two sets of positioning mechanism 4 in advance, grey card 5 reachs the intelligence and dresses the light sensor of glasses and/or distance sensor's separately corresponding high distance, only needs drive assembly 2 drive grey card 5 to carry out the removal of horizontal direction and reaches the light sensor and/or the distance sensor of intelligence and dress glasses and correspond the position, and efficiency is higher, test stability, the precision is high, and the quality is better.
Referring to fig. 4 and 5, the positioning mechanism 4 includes a mounting plate 410, a support plate 420, a support guide post 430, a threaded rod 440, and an adjusting nut 450; the mounting plate 410 is provided with a guide sleeve 480; the supporting guide post 430 penetrates through the guide sleeve 480 and is connected with the supporting plate 420; threaded rod 440 passes through mounting plate 410; the adjusting nut 450 is matched with the threaded rod 440 to position the mounting plate 410; the driving assembly 2 is mounted to the mounting plate 410.
The positioning mechanism 4 moves along the length direction of the support guide post 430 through the guide sleeve 480 from the mounting plate 410, and when the mounting plate 410 is adjusted to a predetermined height position, the two adjusting nuts 450 are matched with the threaded rod 440 to screw, so as to clamp and fix the two sides of the mounting plate 410, thereby completing the positioning. Glasses can be dressed for the intelligence of not unidimensional model to this tool, and the commonality is high.
Referring to fig. 4 and 5, the scale includes an indication scale 460 and an indication mark 470; indicator 470 is mounted to mounting plate 410; indicating scale 460 is disposed adjacent to indicating mark 470; indication scale 460 is matched with indication mark 470 for indicating the relative distance between driving component 2 and gray card 5 relative to the intelligent wearable glasses light sensor and/or distance sensor.
The mounting plate 410 moves along the length direction of the support guide post 430 through the guide sleeve 480, the indication graduated scale 460 is matched with the indication mark 470 to serve as an indication reference, the relative distance between the driving assembly 2 installed on the mounting plate 410 and the ash card 5 relative to the intelligent wearable glasses light sensor and/or distance sensor is indicated, when the mounting plate 410 is adjusted to a preset height position, the two adjusting nuts 450 are matched and screwed with the threaded rod 440 to clamp and fix the two sides of the mounting plate 410, the position adjustment is completed, and the adjustment of the relative distance between the ash card 5 and the light sensor and/or distance sensor is completed. Glasses can be dressed for the intelligence of not unidimensional model to this tool, and the commonality is high.
Referring to fig. 2 and 4, the guiding assembly 490 is included, the guiding assembly 490 includes a support 491 mounted on the mounting plate 410, a linear guide 492 mounted on the support 491, a sliding seat 493 slidably connected to the linear guide 492, and a connecting frame 494; the driving assembly 2 is a cylinder 210, one end of the connecting frame 494 is connected with the sliding seat 493, the other end of the connecting frame 494 is connected with the power output end of the cylinder 210, and the ash card 5 is installed at the power output end of the cylinder 210.
When the glasses physique is too big is dressed to intelligence that tests, choose for use corresponding great cylinder 210, cylinder 210 power take off end is longer, drive grey card 5 and stretch out and reach light sensor and/or distance sensor relevant position and appear the skew easily, lead to the test result to be out of alignment, therefore, through setting up direction subassembly 490 on mounting panel 410, be connected with slide 493 through link 494 one end, one end is connected with cylinder 210 power take off end, carry out the direction of motion to cylinder 210 power take off end and go up the guide, the accurate nature of test result has been promoted.
Referring to fig. 2, 5 and 6, the clamping assembly 1 includes a rotary pressing cylinder 110 and a positioning female die 120, the positioning female die 120 is provided with a positioning groove 121 for accommodating the intelligent wearable glasses, and a power output end of the rotary pressing cylinder 110 is provided with a pressing head 130 for pressing the intelligent wearable glasses.
Rotatory air cylinder 110 is called corner cylinder again, and its power take off end has rotatory raising and lowering functions, can realize driving pressure head 130 and support to press intelligence and dress glasses, fixes the intelligence and dresses glasses and fix a position in positioning groove 121 of location die 120. Rotatory air cylinder 110 pushes down carries pressure head 130 and keeps away the position with centre gripping subassembly 1 mutually at initial condition, make things convenient for operation workman or arm to wear the intelligent of needs test and wear the unobstructed positioning groove 121 of packing into location die 120 in, push down and support and press intelligent wearing glasses, treat that the test of intelligent wearing glasses finishes, rotatory air cylinder 110 power take off end carries pressure head 130 and rotates and rise, move to and do not hinder the one side that intelligent wearing glasses took out from location die 120, the week is taken into account in this kind of design, therefore, the clothes hanger is strong in practicability.
The preferred material of pressure head 130 is silica gel, has certain compliance, prevents to press and hinders intelligence wearing glasses. The preferred material of location die 120 is silica gel or teflon, has good wearability and certain compliance to and have the parcel frictional force, therefore positioning groove 121 can prevent fish tail intelligence wearing glasses shell when glasses are dressed to centre gripping location intelligence, and play good fixed centre gripping accurate positioning effect.
Referring to fig. 2 and 7, the device includes a first key testing assembly 6, the first key testing assembly 6 includes a first driving cylinder 610 and a first pressing finger 620, the first pressing finger 620 is disposed at a power output end of the first driving cylinder 610; positioning groove 121 is equipped with the position through-hole 122 of keeping away that corresponds the setting with intelligence wearing glasses button, and first drive actuating cylinder 610 drive first pressure indicate 620 to wear to establish and keep away position through-hole 122 and press intelligence wearing glasses button.
This tool is when testing intelligence and dresses glasses light sensor and/or distance sensor function, also tests the button that glasses were dressed to intelligence, improves the integrated level, and a tractor serves several purposes reduces the turnover wasting resources of intelligence wearing glasses between different test item equipment, has reduced special test equipment's manufacturing cost, economic environmental protection. The button of glasses is dressed to intelligence generally has functions such as switch on and off, volume control, song switch, and this tool wears the glasses button through first 610 drive actuating cylinder drives first pressure and indicates 620 to wear to establish to keep away a through-hole 122 and press intelligence, carries out the button test.
Referring to fig. 2, fig. 3 and fig. 7, the second key testing assembly 7 includes a second driving cylinder 710, a second pressing finger 720, and the second pressing finger 720 is disposed at the power output end of the second driving cylinder 710; the positioning concave die 120 is provided with a avoiding groove 123 corresponding to another key of the intelligent wearable glasses, and the second driving cylinder 710 drives the second pressing finger 720 to penetrate through the avoiding groove 123 to press the other key of the intelligent wearable glasses.
The intelligent wearable glasses are generally provided with a plurality of keys which are arranged at different positions, so that the second driving cylinder 710 of the second key test component 7 is used for driving the second pressing finger 720 to penetrate through the avoiding groove 123 to press the other key of the intelligent wearable glasses, and key test is carried out.
Preferably, first pressure finger 620, second pressure finger 720, the material is electrically conductive silica gel or electrically conductive cotton, and the glasses are dressed to the simulation people's finger, avoid fish tail intelligence. When glasses were ridden for intelligent wireless motion to intelligence wearing glasses, the second was pressed and is indicated 720 for conductive silica gel, simulation people's ear contact glasses leg relevant position, and the function is worn in the test.
Referring to fig. 1 and 5, the signal coupling plate 8 for coupling signal parameters of the smart wearable glasses is included, and the number of the positioning grooves 121 of the positioning concave die 120 is two.
Coupling signal board receiving and dispatching test intelligence is dressed glasses wireless connection signal. The number of the positioning grooves 121 is two, and two pieces of intelligent wearable glasses can be placed in the two positioning grooves 121 of the same positioning concave die 120 respectively.
Preferably, the signal coupling plate 8, the first key testing component 6, the second key testing component 7, the positioning concave die 120 and the components correspondingly matched with the positioning concave die 120 are also correspondingly arranged in two groups; therefore, the jig can test four pieces of intelligent wearable glasses simultaneously, and the test efficiency is improved; in the process that one of the positioning female dies 120 clamps the test product, an operator or automatic feeding equipment takes and places the intelligent wearable glasses on the other positioning female die 120, and the two sides are effectively matched for testing, so that the efficiency is high.
Referring to fig. 1, 2, 4 and 5, the device includes a working platform 10 and an installation box 11; the clamping assembly 1 and the positioning mechanism 4 are arranged on the working platform 10. Preferably, the working platform 10 is hinged to the installation box 11 and can be turned over and opened relatively, the working platform 10 is covered with the installation box 11, the electric control assembly and the pneumatic control assembly can be contained in the installation box 11, and the convenience and practicability are improved.
One end of the supporting guide post 430 of the positioning mechanism 4 is connected to the working platform 10, and the other end is connected to the supporting plate 420, so that the positioning mechanism 4 is erected on the working platform 10. Preferably, a position of the working platform 10 corresponding to the mounting plate 410 is provided with a limiting block 405, and the limiting block 405 is used for limiting the lowest position of the mounting plate 410 when the mounting plate 410 is adjusted along the supporting guide post 430, so as to lift the mounting plate 410 and prevent the mounting plate 410 from sliding down onto the working platform 10. The second key test component 7 is arranged below the positioning mechanism 4, the height of the limiting block 405 is higher than that of the second driving cylinder 710, the limiting block 405 lifts the mounting plate 410, and the mounting plate 410 is prevented from descending and pressing to the second driving cylinder 710 when being adjusted. This kind of design makes this tool that each subassembly integrated level is high, and second button test component 7 also can stagger the spatial position with positioning mechanism 4, mutually noninterfere, and this kind of design benefit is practical.
Preferably, the positioning female die 120 is provided with the support frame 140, the positioning female die 120 is connected with the working platform 10 through the support frame 140, so that the clamping assembly 1 is installed on the working platform 10, the first driving cylinder 610 is installed on the working platform 10, and the first pressing finger 620 driven by the power output end of the first driving cylinder 610 is conveniently arranged on the intelligent wearable glasses button through the avoiding through hole 122.

Claims (10)

1. An automatic test fixture for intelligent wearable glasses is characterized by comprising a clamping assembly, a driving assembly and a positioning mechanism; the clamping assembly is used for clamping and positioning the intelligent wearable glasses; the glasses positioning device is characterized in that a gray card is arranged on the driving assembly, the driving assembly is used for driving the gray card to correspond to a sensor of the intelligent wearable glasses, and the positioning mechanism is used for adjusting the relative distance between the driving assembly and the sensor of the intelligent wearable glasses relative to the gray card.
2. The automatic testing jig for intelligent wearable glasses according to claim 1, wherein the number of the driving assembly, the number of the gray cards and the number of the positioning mechanisms are two, and the driving assembly, the gray cards and the positioning mechanisms are respectively arranged on two sides of the clamping assembly, and the two gray cards respectively have a relative distance with respect to the sensor of the intelligent wearable glasses.
3. The automatic test fixture of intelligent wearable glasses according to claim 2, wherein the positioning mechanism comprises a mounting plate, a support guide post, a threaded rod, and an adjusting nut; the mounting plate is provided with a guide sleeve; the supporting guide pillar penetrates through the guide sleeve and is connected with the supporting plate; the threaded rod penetrates through the mounting plate; the adjusting nut is matched with the threaded rod to position the mounting plate; the drive assembly is mounted to the mounting plate.
4. The automatic test fixture of intelligent wearable glasses according to claim 3, comprising an indication scale and an indication mark, wherein the indication mark is mounted on the mounting plate; the indication graduated scale is arranged adjacent to the indication mark; the indication graduated scale is matched with the indication mark and used for indicating the relative distance between the driving assembly and the sensor of the intelligent wearing glasses of the gray card.
5. The automatic test fixture of intelligent wearable glasses according to claim 3, comprising a guide assembly, wherein the guide assembly comprises a bracket mounted on the mounting plate, a linear guide rail mounted on the bracket, a sliding seat connected with the linear guide rail in a sliding manner, and a connecting frame; the driving assembly is an air cylinder, one end of the connecting frame is connected with the sliding seat, the other end of the connecting frame is connected with the air cylinder power output end, and the ash card is installed at the air cylinder power output end.
6. The automatic test fixture of intelligence wearing glasses of claim 1, characterized in that, the centre gripping subassembly includes rotatory air cylinder, location die that pushes down, the location die is equipped with the positioning groove who holds intelligence wearing glasses, rotatory air cylinder power take off end that pushes down is equipped with the pressure head that is used for pressing intelligence wearing glasses.
7. The automatic test fixture of intelligent wearable glasses according to claim 6, comprising a first key test assembly, wherein the first key test assembly comprises a first driving cylinder and a first pressure finger, and the first pressure finger is arranged at a power output end of the first driving cylinder; positioning groove is equipped with the position through-hole of keeping away that corresponds the setting with intelligence dress glasses button, first drive actuating cylinder drive first pressure is pointed to and is worn to establish keep away the position through-hole and press intelligence dress glasses button.
8. The automatic test fixture of intelligent wearable glasses according to claim 6, comprising a second key test assembly, wherein the second key test assembly comprises a second driving cylinder and a second pressure finger, and the second pressure finger is arranged at the power output end of the second driving cylinder; the location die is equipped with the position recess of keeping away that corresponds the setting with another button of intelligence wearing glasses, the second drives actuating cylinder drive the second is pressed and is pointed to wearing to establish keep away the position recess and press another button of intelligence wearing glasses.
9. The automatic test fixture of intelligence wearing glasses of claim 6, comprising a signal coupling board for coupling intelligence wearing glasses signal parameters, the number of positioning grooves of the positioning cavity die is two.
10. The automatic test fixture for intelligent wearable glasses according to any one of claims 1-9, comprising a working platform and an installation box; the clamping assembly and the positioning mechanism are arranged on the working platform.
CN202122582243.9U 2021-10-26 2021-10-26 Automatic test fixture of glasses is dressed to intelligence Active CN216285373U (en)

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CN202122582243.9U CN216285373U (en) 2021-10-26 2021-10-26 Automatic test fixture of glasses is dressed to intelligence

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Application Number Priority Date Filing Date Title
CN202122582243.9U CN216285373U (en) 2021-10-26 2021-10-26 Automatic test fixture of glasses is dressed to intelligence

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CN216285373U true CN216285373U (en) 2022-04-12

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CN202122582243.9U Active CN216285373U (en) 2021-10-26 2021-10-26 Automatic test fixture of glasses is dressed to intelligence

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN116202740A (en) * 2023-02-09 2023-06-02 长园半导体设备(珠海)有限公司 Infrared calibration testing machine

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN116202740A (en) * 2023-02-09 2023-06-02 长园半导体设备(珠海)有限公司 Infrared calibration testing machine
CN116202740B (en) * 2023-02-09 2024-04-19 长园半导体设备(珠海)有限公司 Infrared calibration testing machine

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