CN105526886B - Handset finished product detection device - Google Patents

Abstract

The present invention is suitable for mobile phone detection technique field, the handset finished product detection device of offer includes workbench, fixing bracket, gap detection mechanism, offset testing agency, concentricity testing agency, clamping device for detecting gap and offset and camera concentricity between the screen of handset finished product and mobile phone shell；Gap detection mechanism, offset testing agency and concentricity testing agency include the light source assembly of the camera assembly and offer radiation source for taking pictures.The handset finished product detection device is by the way that gap detection mechanism, offset testing agency and concentricity testing agency to be set on workbench, and it is taken pictures to the mobile phone products being fixed on clamping device using camera assembly and provides required radiation source of taking pictures using light source assembly, to realize the detection for completing offset and camera concentricity between gap, screen and mobile phone shell between screen and mobile phone shell in same station, it is simple in structure, and it can be automatically performed detection, accuracy of detection is high and detection efficiency is high.

Description

Handset finished product detection device

Technical field

The invention belongs to mobile phone detection technique field more particularly to a kind of handset finished product detection devices.

Background technology

There is the handset finished product of display screen for being sticked, it usually needs detect the camera concentricity and hand of the handset finished product Gap between machine screen and mobile phone shell and offset.Existing detection mode is artificial ocular estimate, and inspector puts handset finished product It sets in detection platform, utilizes the detections such as ruler.For example, detect handset finished product screen and mobile phone shell between gap when, The tools such as ruler are measured into the gap size between mobile phone screen and mobile phone shell, then compares and determines with standard clearance size again Whether the gap size detected meets the requirements.

However, existing artificial detection has the following defects：Detection efficiency is low, and when artificial detection needs rotating mobile and right Gap size is detected one by one between mobile phone screen and mobile phone shell；Detection accuracy is low, and quality is difficult to ensure；Personnel work Intensity is big, needs prolonged nerve and eye-level nervous, and inspector is caused to be reluctant to be engaged in this work and substantially people occur Member's flowing.

Moreover, between the Internal periphery length and width dimensions, camera concentricity and mobile phone screen and mobile phone shell of handset finished product Gap and offset detection, it usually needs completed on different stations, detection program is complicated and detection efficiency is low.

Invention content

The purpose of the present invention is to provide a kind of handset finished product detection devices, it is intended to how solve in same station completion hand The technical issues of gap and offset between the camera concentricity and mobile phone screen and mobile phone shell of machine finished product are detected.

The invention is realized in this way a kind of handset finished product detection device, screen and mobile phone for detecting handset finished product Gap and offset and camera concentricity between shell, and include workbench, be fixed on the workbench and there is horizontal gird Fixing bracket, the gap detection mechanism for detecting gap between screen and mobile phone shell, for detect screen and mobile phone shell it Between offset offset testing agency, the concentricity testing agency for detecting camera concentricity, be installed on the workbench simultaneously Clamping device for fixing handset finished product to be detected；The gap detection mechanism, the offset testing agency and described coaxial Degree testing agency is installed on the horizontal gird and above the handset finished product, and includes for screen and mobile phone shell Between offset and cell phone rear cover profile are taken pictures between gap, screen and mobile phone shell camera assembly, required photograph of taking pictures is provided The mounting seat penetrated the light source assembly of light source and be installed on the horizontal gird, the light source assembly and the camera assembly It is fixedly installed in the mounting seat.

Further, the light source assembly includes a pair of the first light for being installed in the mounting seat and providing item light Source, two first light sources are oppositely arranged and the light-emitting angle of each first light source is adjustable.

Further, the light source assembly further include be fixedly installed in the mounting seat and with the first light source pivot The first adjusting block connect, first adjusting block are equipped with the first adjustment hole coordinated with the first light source.

Further, the light source assembly further includes a pair of second light source for providing point light and consolidates the second light source Surely the connecting bracket being connected in the mounting seat.

Further, the light source assembly further includes for the second light source to be fixedly mounted and is rotationally connected with the company Holder is connect to adjust the second adjusting block of the second light source light-emitting angle, second adjusting block is equipped with and the connecting bracket Second adjustment hole of cooperation.

Further, the light source assembly includes offer point light source and the adjustable third light source of light-emitting angle and is connected to Link block between the third light source and the mounting seat, the third light source are articulated in the link block.

Further, the shell of the third light source is equipped with pivoted hole and connecting hole in docking distribution；The connection Block is equipped with rotation hole that is corresponding with the pivoted hole and being connected using drive-connecting shaft and at least one with the connecting hole phase It corresponds to adjust the third adjustment hole of the third light source light-emitting angle.

Further, each third adjustment hole is arc-shaped.

Further, the light source assembly is ring light source, and the ring light source is fixed on the camera assembly and the ring The axis of light source and the plane where the cell phone rear cover.

Further, the camera assembly include camera in perpendicular projection to mobile phone screen or cell phone rear cover and The fixed plate of the camera is fixedly mounted.

Further, the handset finished product detection device further includes being installed on the workbench and being led with being moved forward and backward The first movement mechanism of rail, the second mobile mechanism for being installed on the horizontal gird and there is transverse shifting guide rail and sliding Be connected to second mobile mechanism with above the first movement mechanism and with longitudinal movement rail third move Mechanism；The clamping device is slidably connected to the first movement mechanism and is led along the back-and-forth motion together with the handset finished product Rail moves, and the camera assembly and the light source assembly are installed in the third mobile mechanism with along the longitudinal movement rail Movement is simultaneously moved with the third mobile mechanism along the transverse shifting guide rail.

Further, the first movement mechanism includes equipped with the back-and-forth motion guide rail and for installing the clamping machine First guide part of structure and it is set to first guide part end and for driving the clamping device along the front and back shifting First actuator of dynamic guide rail movement；

Second mobile mechanism includes equipped with the transverse shifting guide rail and for installing the third mobile mechanism Second guide part and be set to second guide part end and for drive the third mobile mechanism along it is described laterally move Second actuator of dynamic guide rail movement；

The third mobile mechanism includes that the third equipped with the longitudinal movement rail and for the mounting seat is oriented to Part and it is set to third guide part end and for driving the camera assembly and the light source assembly along the longitudinal direction The third actuator of moving guide rail movement.

Further, the fixing bracket further include be fixed on the horizontal gird towards the third mobile mechanism Guide member on surface, the third guide part are equipped with the guide channel coordinated with the guide member, the extension side of the guide member To consistent with the extending direction of transverse shifting guide rail.

Further, the clamping device includes the sliding bottom for being slidably connected to the first movement mechanism, fixed peace Loaded on the sliding bottom support base, be fixedly installed in the support base and with rotating part to switch the handset finished product The rotating seat of test position and it is rotationally connected with the rotating seat so that the clamp assembly of the handset finished product is fixedly mounted, it is described Clamp assembly is rotated together with the handset finished product with the rotation of the rotating part.

Further, the clamp assembly includes the peace for being fixed on the rotating seat and being rotated with rotating part rotation Loading board is fixedly installed on the mounting plate and the clamping element of the handset finished product is clamped equipped with clamping button.

The present invention having the technical effect that compared with the existing technology：The handset finished product detection device will be by that will be used to detect screen The gap detection mechanism in gap, the offset detection for detecting offset between screen and mobile phone shell between mobile phone shell It mechanism and is set to the workbench for detecting the concentricity testing agency of camera concentricity, and utilizes the camera shooting group Part takes pictures to the mobile phone products being fixed on the clamping device and provides required photograph of taking pictures using the light source assembly Light source is penetrated, offset and phase between gap, screen and mobile phone shell between screen and mobile phone shell are completed in same station to realize The detection of machine concentricity, it is simple in structure, and it can be automatically performed detection, accuracy of detection is high and detection efficiency is high.

Description of the drawings

In order to illustrate the technical solution of the embodiments of the present invention more clearly, below will be to the embodiment of the present invention or the prior art Attached drawing needed in description is briefly described, it should be apparent that, drawings described below is only the present invention's Some embodiments for those of ordinary skill in the art without creative efforts, can also be according to this A little attached drawings obtain other attached drawings.

Fig. 1 is the structure chart that the embodiment of the present invention provides handset finished product detection device；

Fig. 2 is the exploded view of handset finished product detection device in Fig. 1；

Fig. 3 is the connection structure diagram of offset testing agency in 2, gap detection mechanism and concentricity testing agency；

Fig. 4 is the structural exploded view of third light source in Fig. 3；

Fig. 5 is the structural exploded view of first light source in Fig. 3；

Fig. 6 is the sectional view of handset finished product detection device in Fig. 1；

Fig. 7 is Tu2Zhong first movements mechanism and the structural exploded view of clamping device；

Fig. 8 is the structure chart of clamp assembly in Fig. 7；

Fig. 9 is the structural exploded view of clamp assembly in Fig. 8.

Reference sign：

100 handset finished product, 50 concentricity testing agency

10 workbench, 540 ring light source

20 fixing bracket, 60 first movement mechanism

22 horizontal girds 62 are moved forward and backward guide rail

24 guide member, 64 first guide part

30 gap detection mechanism, 66 first actuator

32 camera assembly, 70 second mobile mechanism

320 camera, 72 transverse shifting guide rail

322 fixed plate, 74 second guide part

34 light source assembly, 76 second actuator

340 first light source, 80 third mobile mechanism

342 first adjusting block, 82 longitudinal movement rail

3420 first adjustment hole, 84 third guide part

344 second light source, 86 third actuator

346 connecting bracket, 88 sliding bottom

348 second adjusting block, 89 guide channel

3480 second adjustment hole, 90 clamping device

36 mounting seat, 92 sliding seat

40 offset testing agency, 94 support base

442 third light source, 95 rotating seat

4420 pivoted hole, 950 rotating part

4422 connecting hole, 96 clamp assembly

445 link block, 960 mounting plate

4450 rotation hole, 962 clamping element

4452 third adjustment holes 9620 clamping button

Specific implementation mode

In order to make the purpose , technical scheme and advantage of the present invention be clearer, with reference to the accompanying drawings and embodiments, right The present invention is further elaborated.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, and It is not used in the restriction present invention.

Fig. 1 to Fig. 9 is please referred to, handset finished product detection device provided in an embodiment of the present invention is for detecting handset finished product 100 Screen and mobile phone shell between gap and offset and camera concentricity, and include workbench 10, be fixed on the workbench 10 Go up and have the fixing bracket 20 of horizontal gird 22, the gap detection mechanism 30 for detecting gap between screen and mobile phone shell, Offset testing agency 40 for detecting offset between screen and mobile phone shell, the concentricity detection machine for detecting camera concentricity Structure 50, the clamping device 90 for being installed on the workbench 10 and being used to fix handset finished product 100 to be detected；The gap detection Mechanism 30, the offset testing agency 40 and the concentricity testing agency 50 are installed on the horizontal gird 22 and are located at institute The top of handset finished product 100 is stated, and includes for offset and mobile phone between gap, screen and mobile phone shell between screen and mobile phone shell Camera assembly 32 that rear cover profile is taken pictures, the light source assembly 34 that required radiation source of taking pictures is provided and it is installed on the water Mounting seat 36 on flat crossbeam 22, the light source assembly 34 and the camera assembly 32 are fixedly installed in the mounting seat 36 On.

Handset finished product detection device provided in an embodiment of the present invention will be by that will be used to detect gap between screen and mobile phone shell The gap detection mechanism 30, for detecting the offset testing agency 40 of offset between screen and mobile phone shell and being used for The concentricity testing agency 50 of detection camera concentricity is set on the workbench 10, and using the camera assembly 32 to solid It is taken pictures due to the mobile phone products on the clamping device 90 and provides required irradiation of taking pictures using the light source assembly 34 Light source completes offset and camera between gap, screen and mobile phone shell between screen and mobile phone shell to realize in same station The detection of concentricity, it is simple in structure, and it can be automatically performed detection, accuracy of detection is high and detection efficiency is high.

When detecting, using camera assembly 32 between the screen and mobile phone shell point to be measured, the screen on gap Point to be measured and cell phone rear cover profile are taken pictures on offset between mobile phone shell, and pass through the gap size to tested point position Calculate and the gap size being calculated is obtained into gap detection result, by treating compared with standard clearance size The offset size of measuring point position calculate and is compared to obtain offset with standard clearance size by the offset size being calculated Testing result and central point and the camera center of circle by being analyzed to obtain cell phone rear cover to cell phone rear cover contour images information And the central point of cell phone rear cover is compared with the camera center of circle to obtain camera concentricity, it can be complete using same camera assembly 32 The detection of 100 different parts of pairs of handset finished product taken pictures and complete different parameters, detection efficiency improve.

Fig. 3 is please referred to, in this embodiment, using the mounting seat 36 by the camera assembly 32 and the light source group Part 34 is installed on the horizontal gird 22, so that the camera assembly 32 and the light source assembly 34 are located at the mobile phone to be measured 100 top of finished product, to be detected to the handset finished product 100 to be measured.

When carrying out gap detection between screen and mobile phone shell, the light source assembly 34 provides irradiation light and shines light It is incident upon between the screen and mobile phone shell in gap, the camera assembly 32 is to be measured on gap between the screen and mobile phone shell Point is taken pictures, and central processing unit (not shown) divides the gap size for the point to be measured that the camera assembly 32 is shot Analysis and calculating.The handset finished product detection device using the light source assembly 34 provide irradiation light and by light expose to screen with Between mobile phone shell in gap, clapped using to be measured point of the camera assembly 32 between the screen and mobile phone shell on gap According to, and using central processing unit the image information of tested point position is analyzed and is calculated obtain the point to be measured gap it is big It is small, which is compared with standard clearance size and obtains gap detection as a result, entire detection process is automatically performed, Detection efficiency is high and accuracy of detection is high.

Fig. 1 to Fig. 6 is please referred to, further, the light source assembly 34 is installed on including a pair in the mounting seat 36 And the first light source 340 of item light is provided, two first light sources 340 are oppositely arranged and the beam angle of each first light source 340 It spends adjustable.Two first light sources 340 are set to the both sides of the camera assembly 32, it is preferable that two first light sources 340 are right Title is set to 32 both sides of the camera assembly, to provide uniform light.Two first light sources 340 are a light source, are irradiated in respectively On the two opposite sides side of the handset finished product 100, between the screen and mobile phone shell gap be irradiated, in order to described The point to be measured in gap between screen and mobile phone shell of camera assembly 32 is taken pictures, and accuracy of detection is improved.

Fig. 3 and Fig. 5 are please referred to, further, the light source assembly 34 further includes being fixedly installed in the mounting seat 36 The first adjusting block 342 that is upper and being pivotally connected with the first light source 340, first adjusting block 342 are equipped with and first light The first adjustment hole 3420 that source 340 coordinates.The both ends of the first light source 340 are articulated in first adjustment hole 3420, and It can adjust in the position in first adjustment hole 3420, to adjust the light-emitting angle of the first light source 340.It is preferred that Ground, first adjustment hole 3420 are arc strip hole, and the first light source 340 is fixed on first adjustment hole 3420 Different location is to realize the adjusting to 340 light-emitting angle of the first light source.According between the screen and mobile phone shell on gap Point to be measured adjusts the light-emitting angle of the first light source 340, to improve take pictures clarity and accuracy, to improve detection Precision.

Fig. 2 and Fig. 3 are please referred to, further, the light source assembly 34 further includes a pair of second light source 344 for providing point light And the second light source 344 is fixedly connected on to the connecting bracket 346 in the mounting seat 36.Preferably, described second Light source 344 is laser light source, by the way that the light of the second light source 344 is directed at point to be measured, to improve accuracy in detection.Institute It states connecting bracket 346 to be connected between the second light source 344 and the mounting seat 36, for adjusting the second light source 344 light-emitting angle, to be conducive to improve accuracy in detection and accuracy of detection.

Fig. 2 and Fig. 3 are please referred to, further, the light source assembly 34 further includes for the second light source to be fixedly mounted 344 and the connecting bracket 346 is rotationally connected with to adjust the second adjusting block 348 of 344 light-emitting angle of the second light source, institute It states the second adjusting block 348 and is equipped with the second adjustment hole 3480 coordinated with the connecting bracket 346.Utilize second adjusting block 348 fix the second light source 344, and adjust position of second adjusting block 348 in second adjustment hole 3480, from And the light-emitting angle of the second light source 344 is adjusted, to improve accuracy in detection and accuracy of detection.

When carrying out offset detection between screen and mobile phone shell, the light source assembly 34 provides irradiation light and shines light It is incident upon between the screen and mobile phone shell on offset, the camera assembly 32 is to be measured on offset between the screen and mobile phone shell Point is taken pictures, and the light source assembly 34 is located at 32 side of the camera assembly, and central processing unit is to the camera assembly 32 The offset size of the point to be measured of shooting is analyzed and is calculated.The handset finished product detection device is carried using the light source assembly 34 It is exposed between screen and mobile phone shell in offset for irradiation light and by light, using camera assembly 32 to the screen and mobile phone Point to be measured between shell on offset is taken pictures, and using central processing unit to the image information of tested point position carry out analysis and It calculates and obtains the offset size of the point to be measured, which is compared with standard offset size and obtains offset Testing result, entire detection process are automatically performed, and detection efficiency is high and accuracy of detection is high.

Fig. 1 to Fig. 4 is please referred to, further, the light source assembly 34 includes offer point light source and light-emitting angle is adjustable Third light source 442 and the link block 445 being connected between the third light source 442 and the mounting seat 36, the third Light source 442 is articulated in the link block 445.The third light source 442, and the link block are fixed using the link block 445 445 are fixed in the mounting seat 36, and the third light source 442 described in this way is fixed relative to the mounting seat 36, passes through tune The light-emitting angle of the third light source 442 is saved, so that the light is directed at point to be measured, accuracy of detection and inspection can be greatly improved Survey accuracy.

Fig. 3 and Fig. 4 are please referred to, further, the shell of the third light source 442 is equipped with the pivoted hole in docking distribution 4420 and connecting hole 4422；The link block 445 is equipped with corresponding with the pivoted hole 4420 and utilizes drive-connecting shaft (not shown) The rotation hole 4450 that is connected and at least one corresponding with the connecting hole 4422 to adjust 442 light extraction of third light source The third adjustment hole 4452 of angle.Using pivoted hole 4420 and the rotation hole 4450 described in the pivot joint axis connection so that described Third light source 442 can be rotated around the drive-connecting shaft, and be lock onto across the connecting hole 4422 using fastener is (not shown) In the third adjustment hole 4452, to which the third light source 442 is fixed on the link block 445.And by will be tight Firmware is fixed on the different location of the third adjustment hole 4452, to adjust the light-emitting angle of the third light source 442, so that The light is directed at point to be measured, can greatly improve accuracy of detection and accuracy in detection.

Fig. 4 is please referred to, further, each third adjustment hole 4452 is arc-shaped.By adjusting the third light source 442 position relative to the third adjustment hole 4452, to adjust the light-emitting angle of the third light source 442.In the implementation In example, the quantity of the third adjustment hole 4452 is 3, and three third adjustment holes 4452 are arranged at semi arch, to It can with larger angle adjust the light-emitting angle of the third light source 442.

When carrying out the detection of camera concentricity, the light source assembly 34 provides irradiation light and light is exposed to the hand It is covered after machine, the camera assembly 32 takes pictures to the profile of the cell phone rear cover, and central processing unit is to the camera assembly Central point and the camera center of circle of the cell phone rear cover are analyzed and calculated and obtained to the cell phone rear cover profile of 32 shootings, is calculated The distance between the cell phone rear cover central point and the camera center of circle obtain camera concentricity.The handset finished product detection device utilizes institute It states light source assembly 34 irradiation light is provided and exposes to light on the cell phone rear cover, using camera assembly 32 to the mobile phone The profile of rear cover is taken pictures, and the image information of the cell phone rear cover profile is analyzed and calculated using central processing unit And the cell phone rear cover central point and the camera center of circle are obtained, calculate the distance between the cell phone rear cover central point and the camera center of circle And the testing result of camera concentricity is obtained, entire detection process is automatically performed, and detection efficiency is high and accuracy of detection is high.

Fig. 1 to Fig. 3 is please referred to, further, the light source assembly 34 is ring light source 540, and the ring light source 540 is fixed on On the camera assembly 32 and the axis of the ring light source 540 and the plane where the cell phone rear cover.By the way that ring is arranged Light source 540 exposes to the cell phone rear cover, to carry out uniform irradiation to the profile of the cell phone rear cover.The ring light source 540 hangs down The cell phone rear cover is directly exposed to, to ensure that the cell phone rear cover is illuminated uniformly, improves accuracy of detection and accuracy in detection.

Fig. 1 to Fig. 6 is please referred to, further, the camera assembly 32 includes perpendicular projection to mobile phone screen or mobile phone The camera 320 that covers afterwards and the fixed plate 322 that the camera 320 is fixedly mounted.By the way that the camera 320 is fixed In in the fixed plate 322 to take pictures to the mobile phone screen or cell phone rear cover, with obtain needed for image information, carry High measurement accuracy.

Fig. 1 to Fig. 6 is please referred to, further, the handset finished product detection device further includes being installed on the workbench 10 It goes up and has and be moved forward and backward the first movement mechanism 60 of guide rail 62, be installed on the horizontal gird 22 and led with transverse shifting Second mobile mechanism 70 of rail 72 and second mobile mechanism 70 is slidably connected to be located at the first movement mechanism 60 Top and the third mobile mechanism 80 with longitudinal movement rail 82；The clamping device 90 is slidably connected to the first movement Mechanism 60 is simultaneously moved together with the handset finished product 100 along the back-and-forth motion guide rail 62, the camera assembly 32 and the light source Component 34 is installed in the third mobile mechanism 80 to be moved along the longitudinal movement rail 82 and with the third moving machine Structure 80 is moved along the transverse shifting guide rail 72.

The handset finished product detection device provided in an embodiment of the present invention is driven described using the first movement mechanism 60 Workbench 10 and together with the handset finished product 100 along the back-and-forth motion guide rail 62 relative to the workbench 10 be moved forward and backward, The third mobile mechanism 80 is driven using second mobile mechanism 70 and together with the photographic device and the light source assembly 34 move left and right relative to the workbench 10 and utilize 80 band of third mobile mechanism along the transverse shifting guide rail 72 It moves the photographic device and the light source assembly 34 is moved up and down along the longitudinal movement rail 82 relative to the workbench 10, The adjusting to the camera assembly 32, the light source assembly 34 and handset finished product to be detected 100 is realized from three dimensions, to realize The automatic adjustment of position also improves accuracy of detection while improving detection efficiency.

In this embodiment, the back-and-forth motion guide rail 62, the transverse shifting guide rail 72 and the longitudinal movement rail 82 extending direction is mutually perpendicular to.

Fig. 1 to 3 and Fig. 6 is please referred to, further, the first movement mechanism 60 includes being equipped with the back-and-forth motion guide rail 62 and for install the clamping device 90 the first guide part 64 and be set to 64 end of the first guide part and be used for The first actuator 66 for driving the clamping device 90 to be moved along the back-and-forth motion guide rail 62.Utilize first actuator 66 Drive the clamping device 90 together with the handset finished product 100 along the back-and-forth motion guide rail 62 relative to the workbench 10 before After move, realize automatically adjust it is front and back between the handset finished product 100 and the camera assembly 32 and the light source assembly 34 Distance improves accuracy of detection and detection efficiency in order to which the handset finished product 100 is adjusted to optimum detection position.

In this embodiment, first guide part 64 and first actuator 66 are fixedly installed in the workbench 10 On, and be equipped with and coordinate with the clamping device 90 to detect the shifting of the clamping device 90 in the side of first guide part 64 The travel switch of dynamic position, in order to realize the automatic adjustment to the clamping device 90 and the mobile phone products position, and is controlled Make the shift motion of the clamping device 90.

In this embodiment, first actuator 66 is motor, can be synchronous motor or other kinds of motor.

Fig. 1, Fig. 2 and Fig. 6 are please referred to, further, second mobile mechanism 70 includes being led equipped with the transverse shifting Rail 72 is simultaneously used to install the second guide part 74 of the third mobile mechanism 80 and is set to 74 end of the second guide part And for driving the second actuator 76 that the third mobile mechanism 80 moves along the transverse shifting guide rail 72.Utilize described Two actuators 76 drive the third mobile mechanism 80 together with the camera assembly 32 and the light source assembly 34 along the transverse direction Moving guide rail 72 is moved left and right relative to workbench 10, is realized and is automatically adjusted the camera assembly 32 and the light source assembly 34 Relative to the lateral position of the mobile phone products, in order to which the camera assembly 32 and the light source assembly 34 are adjusted to most preferably Test position improves accuracy of detection and detection efficiency.

In this embodiment, second guide part 74 and second actuator 76 are fixedly installed in the horizontal gird On 22, and it is equipped with to coordinate with the third mobile mechanism 80 in the side of second guide part 74 and is moved with detecting the third The travel switch of 80 shift position of motivation structure, in order to realize to the camera assembly 32 and the light source assembly 34 and the hand The automatic adjustment of machine product space, and control the shift motion of the third mobile mechanism 80.

In this embodiment, second actuator 76 is motor, can be synchronous motor or other kinds of motor.

Fig. 1, Fig. 2, Fig. 6 and Fig. 7 are please referred to, further, the third mobile mechanism 80 includes being equipped with longitudinal shifting Dynamic guide rail 82 simultaneously is used to the third guide part 84 of the mounting seat 36 and is set to 84 end of third guide part be used in combination In the third actuator 86 for driving the camera assembly 32 and the light source assembly 34 to be moved along the longitudinal movement rail 82.Profit Drive the camera assembly 32 and the light source assembly 34 opposite along the longitudinal movement rail 82 with the third actuator 86 It is moved up and down in the workbench 10, realizes and automatically adjust the camera assembly 32 and the light source assembly 34 relative to the hand The lengthwise position of machine product carries in order to which the camera assembly 32 and the light source assembly 34 are adjusted to optimum detection position High measurement accuracy and detection efficiency.

In this embodiment, the third mobile mechanism 80 further includes the cunning for being slidably connected to the transverse shifting guide rail 72 Dynamic pedestal 88, the third guide part 84 and the third actuator 86 are fixedly installed on the sliding bottom 88, and The side of the third guide part 84 is equipped with the camera assembly 32 and the cooperation of the light source assembly 34 to detect the camera shooting The travel switch (not indicating) of 34 shift position of component 32 and the light source assembly, the formation switch are fixedly installed in the cunning On dynamic pedestal 88, in order to realize to the automatic of the camera assembly 32 and the light source assembly 34 and the mobile phone products position It adjusts, and controls the shift motion of the camera assembly 32 and the light source assembly 34.

In this embodiment, the third actuator 86 is motor, can be synchronous motor or other kinds of electricity Machine.

Fig. 6 is please referred to, further, the fixing bracket 20 further includes being fixed on described in the direction of the horizontal gird 22 Guide member 24 on the surface of third mobile mechanism 80, the third guide part 84 are equipped with the guiding coordinated with the guide member 24 Slot 89, the extending direction of the guide member 24 are consistent with the extending direction of the transverse shifting guide rail 72.The guide member 24 The stationary plane of stationary plane and first guide part 64 is adjacent two vertical surface of the horizontal gird 22, passes through the guiding Part 24 coordinates with the guide channel 89 so that the third mobile mechanism 80 is together with the camera assembly 32 and the light source assembly 34 fit in the movement of 22 surface of the horizontal gird, ensure mobile stability and reliability.In other embodiments, described to lead Drawing part 24 can be set on the third guide part 84, and the guide channel 89 is set on the horizontal gird 22, to realize Guide function is advisable.

Fig. 1, Fig. 2, Fig. 7 are please referred to Fig. 9, further, the clamping device 90 includes being slidably connected to described first The sliding seat 92 of mobile mechanism 60, is fixedly installed in the support base at the support base 94 being fixedly installed on the sliding seat 92 94 and with rotating part 950 to switch the rotating seat 95 of 100 test position of the handset finished product and be rotationally connected with the rotation Transposase 19 5 is to be fixedly mounted the clamp assembly 960 of the handset finished product 100, and the clamp assembly 960 is together with the handset finished product 100 rotate with the rotation of the rotating part 950.It is installed in the first movement mechanism 60 with band by the sliding seat 92 The dynamic handset finished product 100 is moved with the sliding seat 92 along the back-and-forths motion track, passes through the setting rotating seat 95 To drive the handset finished product 100 being fixed on the clamp assembly 960 to rotate, test position is adjusted, so as to To complete the detection to parameter on different location in same test position, detection efficiency is substantially increased.

In this embodiment, the clamp assembly 960 is installed on the rotating seat 95 and is driven by the rotating part 950 The clamp assembly 960 rotates, to switch the test position of the handset finished product 100.

Fig. 7 to Fig. 9 is please referred to, further, the clamp assembly 960 includes being fixed on the rotating seat 95 and with described Rotating part 950 rotate and rotate mounting plate 960, be fixedly installed on the mounting plate 960 and equipped with clamping button 9620 with In the clamping element 962 that the handset finished product 100 is clamped.The clamping element 962 is clamped the handset finished product 100 and utilizes the folder The 9620 fastening handset finished product 100 of button is held, the handset finished product 100 is fixed on the mounting plate 960, to make The handset finished product 100 can move and can be with the rotating part 950 relative to described along the back-and-forth motion track First rail mechanism rotates.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all essences in the present invention All any modification, equivalent and improvement etc., should all be included in the protection scope of the present invention made by within refreshing and principle.

Claims (6)

1. a kind of handset finished product detection device, for detecting gap and offset and phase between the screen of handset finished product and mobile phone shell Machine concentricity, which is characterized in that including workbench, be fixed on the workbench and with horizontal gird fixing bracket, use The gap detection mechanism in gap, the offset inspection for detecting offset between screen and mobile phone shell between detection screen and mobile phone shell Mechanism, the concentricity testing agency for detecting camera concentricity are surveyed, is installed on the workbench and is to be detected for fixing The clamping device of handset finished product；The gap detection mechanism, the offset testing agency and concentricity testing agency installation In on the horizontal gird and above the handset finished product, and include for gap, screen between screen and mobile phone shell Offset and cell phone rear cover profile are taken pictures between mobile phone shell camera assembly, the light source group that required radiation source of taking pictures is provided Part and the mounting seat being installed on the horizontal gird, the light source assembly and the camera assembly are fixedly installed in the peace It fills on pedestal；

When detecting, using camera assembly between the screen and mobile phone shell point, the screen and mobile phone to be measured on gap Point to be measured and cell phone rear cover profile are taken pictures on offset between shell；

The light source assembly includes a pair of first light source for being installed in the mounting seat and providing item light, two first light Source is oppositely arranged and the light-emitting angle of each first light source is adjustable；

The light source assembly further includes a pair of second light source for providing point light and is fixedly connected on the second light source described Connecting bracket in mounting seat；

The light source assembly includes offer point light source and the adjustable third light source of light-emitting angle and is connected to the third light source With the link block between the mounting seat, the third light source is articulated in the link block；

The light source assembly includes ring light source, and the ring light source is fixed on the camera assembly, and the axis of the ring light source Perpendicular to plane where the cell phone rear cover.

2. handset finished product detection device as described in claim 1, which is characterized in that the camera assembly include perpendicular projection extremely The fixed plate of camera and the fixed installation camera on mobile phone screen or cell phone rear cover.

3. handset finished product detection device as described in claim 1, which is characterized in that further include being installed on the workbench simultaneously Be moved forward and backward guide rail first movement mechanism, be installed on the horizontal gird and with transverse shifting guide rail second shifting Motivation structure and second mobile mechanism is slidably connected to be located above the first movement mechanism and with longitudinal movement The third mobile mechanism of guide rail；The clamping device is slidably connected to the first movement mechanism and together with the handset finished product edge The back-and-forth motion guide rail movement, the camera assembly and the light source assembly are installed in the third mobile mechanism with along institute It states longitudinal movement rail movement and is moved along the transverse shifting guide rail with the third mobile mechanism.

4. handset finished product detection device as claimed in claim 3, which is characterized in that the first movement mechanism includes being equipped with institute It states and is moved forward and backward guide rail and is used to install the first guide part of the clamping device and is set to first guide part end And the first actuator for driving the clamping device to be moved along the back-and-forth motion guide rail；

Second mobile mechanism includes equipped with the transverse shifting guide rail and for installing the second of the third mobile mechanism Guide part and it is set to second guide part end and for driving the third mobile mechanism to be led along the transverse shifting Second actuator of rail movement；

The third mobile mechanism include equipped with the longitudinal movement rail and for the mounting seat third guide part with And it is set to third guide part end and is used to drive the camera assembly and the light source assembly along the longitudinal movement The third actuator of guide rail movement.

5. handset finished product detection device as described in claim 3 or 4, which is characterized in that the clamping device includes that sliding connects The sliding bottom for being connected to the first movement mechanism, is fixedly installed in institute at the support base being fixedly installed on the sliding bottom State support base and with rotating part to switch the rotating seat of the handset finished product test position and be rotationally connected with the rotation Seat is to be fixedly mounted the clamp assembly of the handset finished product, and the clamp assembly is together with the handset finished product with the rotating part It rotates and rotates.

6. handset finished product detection device as claimed in claim 5, which is characterized in that the clamp assembly is described including being fixed on Rotating seat and with the rotating part rotate and rotate mounting plate, be fixedly installed on the mounting plate and equipped with clamping button with In the clamping element that the handset finished product is clamped.