CN218450245U - Full-automatic mobile phone camera module function test equipment - Google Patents

Abstract

The application relates to the field of mobile phone camera testing, in particular to full-automatic mobile phone camera module function testing equipment which comprises a fixed frame, a station switching structure, a black and white field testing structure, a lens switching structure and a near focus testing structure; the black-and-white field test structure, the lens switching structure and the near-focus test structure are all arranged on the fixed frame; the station switching structure comprises a rotary table and four jig tables, a cross flat plate is arranged at the output end of the rotary table, the other end of the rotary table is arranged on the fixed rack, and the four jig tables are arranged at four ends of the cross flat plate in a one-to-one correspondence manner; the jig table is respectively opposite to the black-and-white field test structure, the near-focus test structure and the lens switching structure during testing. This application adopts the rotatory mode of switching of quadruplex position, carries out black and white field test, nearly burnt test, well burnt test, far burnt test to the cell-phone module of making a video recording, effectively saves equipment area, practices thrift equipment cost of manufacture, lifting means availability factor.

Description

Full-automatic mobile phone camera module function test equipment

Technical Field

The application relates to the field of mobile phone camera testing, in particular to a full-automatic mobile phone camera module function testing device.

Background

With the improvement of the photographing quality of the mobile phone camera, the process manufacturing flow is more and more complex. Black and white field test, near focus test, middle focus test and far focus test are indispensable links of the mobile phone camera. The quality of the mobile phone camera is affected in each step in the production process. At present, part of mobile phone camera testing links are distributed in different devices, most of the devices are manually fed, so that materials need to be transferred among the devices, and production efficiency is affected. Meanwhile, the increase of the number of the devices also occupies the use area of a factory building, and the production cost of the factory is increased. The semi-automatic equipment on the existing market adopts a manual feeding mode, and is low in efficiency and high in cost.

Therefore, the above technical problems need to be solved.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems of low efficiency and high cost, the application provides a full-automatic mobile phone camera module function test device.

The application provides a full-automatic cell-phone module function test equipment that makes a video recording adopts following technical scheme:

the utility model provides a full-automatic cell-phone module function test equipment of making a video recording, includes:

fixing the frame;

the station switching structure comprises a rotary table and four jig tables, wherein a cross flat plate is arranged at the output end of the rotary table, the other end of the rotary table is arranged on the fixed rack, and the four jig tables are arranged at four ends of the cross flat plate in a one-to-one correspondence manner;

the black and white field test structure is used for testing dust points and dead points, and is arranged on the fixed rack;

the lens switching structure is used for realizing the switching between the tele test and the middle focus test and is arranged on the fixed rack;

the near-focus test structure is arranged on the fixed rack, and the near-focus test structure is arranged below the lens switching structure;

the three jig tables are opposite to the black and white field test structure, the near focus test structure and the lens switching structure respectively during testing.

By adopting the technical scheme, the mode of four-station rotary switching is adopted by the station switching structure, the mobile phone camera module is subjected to black and white field testing, near focus testing, middle focus testing and far focus testing, the occupied area of equipment is effectively saved, the manufacturing cost of the equipment is saved, and the service efficiency of the equipment is improved.

Optionally, the black and white field test structure includes a black and white field support, a white field light source, a black field module, and a driving assembly for switching the white field light source and the black field module to work, the white field light source and the black field module are arranged side by side on one side of the black and white field support, the white field light source and the black field module are opposite to the jig table, and the driving assembly is arranged on the other side of the black and white field support.

Through adopting above-mentioned technical scheme, the setting of drive assembly is convenient for control white field light source and the position switching of black field module, realizes making black field test environment and white field test environment respectively to the cell-phone module of making a video recording.

Optionally, the driving assembly comprises a linear sliding rail, a sliding buckle and a driving motor, the linear sliding rail is arranged on the fixed rack, the driving motor is arranged at one end of the linear sliding rail, the sliding buckle is arranged at one end of the black-and-white field support far away from the white field light source, the sliding buckle and the linear sliding rail are buckled with each other, and an output shaft of the driving motor is connected to one side of the black-and-white field support close to the sliding buckle.

By adopting the technical scheme, the arrangement of the linear slide rail and the slide fastener is convenient for the linear switching of the white field light source and the black field module under the driving of the driving motor, thereby realizing the manufacturing of different test environments.

Optionally, the lens switching structure includes a support plate, a lens, a first sliding table, a second sliding table and a rolling bearing, the first sliding table is arranged on the fixed frame, the side edge of the support plate is arranged on one side of the first sliding table departing from the fixed frame, the second sliding table is arranged on the other side edge of the support plate opposite to the support plate, the lens is arranged on the second sliding table through the rolling bearing, and the lens is opposite to one of the jig tables.

Through adopting above-mentioned technical scheme, can finely tune and reach accurate location, improve equipment's use precision to lens center and cell-phone module center of making a video recording.

Optionally, the full-automatic mobile phone camera module function test equipment further comprises an image adjusting structure, the image adjusting structure comprises a lifting assembly and an image adjusting module used for collecting images, the lifting assembly is arranged on the fixed frame, the image adjusting module is arranged on the lifting assembly, and the image adjusting module is located above the station switching structure.

By adopting the technical scheme, the image adjusting module can lift up and down along the vertical direction, so that image acquisition at different distances is completed.

Optionally, the lifting assembly comprises a threaded ring, a lifting support, a screw rod, a knob and a V-shaped belt transmission part, the screw rod is arranged in the lifting support in a penetrating mode, the knob is arranged at one end of the screw rod, the V-shaped belt transmission part is arranged at the other end of the screw rod, the screw rod is sleeved with the threaded ring, and the side edge of the image adjusting module is connected to the outer side of the threaded ring.

Through adopting above-mentioned technical scheme, the frictional force of V area driving medium is big, and compact structure, and the transmission is more steady.

Optionally, the full-automatic mobile phone camera module function test equipment further comprises a feeding and discharging mechanism, the feeding and discharging mechanism is arranged on the fixed frame and comprises a supporting frame, a longitudinal driving assembly and a transverse driving assembly, the longitudinal driving assembly and the transverse driving assembly are used for driving the supporting frame to move along the feeding direction, the supporting frame is connected to the longitudinal driving assembly, a suction nozzle head assembly is arranged on the transverse driving assembly, and the transverse driving assembly is arranged on the supporting frame so that the transverse driving assembly drives the suction nozzle head assembly to move along the feeding direction perpendicular to the feeding direction.

Through adopting above-mentioned technical scheme, vertical drive assembly drive support frame removes along the pay-off direction, and horizontal drive assembly drive suction nozzle head subassembly removes along the perpendicular to pay-off direction, is convenient for the suction nozzle head subassembly to absorb the cell-phone module of making a video recording that awaits measuring of different positions.

Optionally, the nozzle head assembly comprises two nozzle heads, and the two nozzle heads are arranged on the transverse driving assembly side by side.

Through adopting above-mentioned technical scheme, a suction nozzle head is used for absorbing the cell-phone module of making a video recording that the test was finished from the tool bench that station switching structure corresponds, and another suction nozzle head is used for absorbing the cell-phone module of making a video recording that awaits measuring, and then realizes snatching the cell-phone module of making a video recording in different regions in step, has improved work efficiency.

Optionally, the full-automatic mobile phone camera module function test equipment further comprises a camera vision structure, wherein the camera vision structure comprises an upper vision camera and a lower vision camera, and the upper vision camera is arranged on one side, facing the suction nozzle head assembly, of the support frame so as to obtain the position coordinates of the mobile phone camera module to be tested; the lower vision camera is arranged at the other side of the support frame and faces the fixed frame so as to correct the position coordinate of the mobile phone camera module to be detected.

By adopting the technical scheme, the feeding and discharging mechanism takes and places the mobile phone camera module according to the position information calculated by the upper vision camera, and the lower vision camera corrects the angle of the taken mobile phone camera module, so that the accuracy of taking and placing the mobile phone camera module is improved.

Optionally, a full-automatic cell-phone module function test equipment that makes a video recording still includes the charging tray structure, and the charging tray structure sets up in fixed frame, and the charging tray structure includes two and treats measuring dish and a bad dish, and the removal area of going up the unloading mechanism covers the charging tray structure.

Through adopting above-mentioned technical scheme, image adjustment structure, black and white field test structure and lens switch structure finish the back to the cell-phone module of making a video recording, judge whether qualified product, go up the unloading structure and grab unqualified cell-phone module of making a video recording and get bad dish, grab qualified cell-phone module of making a video recording and get back to in two other dishes of waiting to be tested, and then improve equipment's work efficiency.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the working position switching structure is utilized to carry out black and white field test, near focus test, middle focus test and far focus test on the mobile phone camera module in a four-working position rotary switching mode, so that the occupied area of equipment is effectively saved, the manufacturing cost of the equipment is saved, and the use efficiency of the equipment is improved;

2. the arrangement of the driving assembly is convenient for controlling the position switching of the white field light source and the black field module, and the black field test environment and the white field test environment are respectively manufactured for the mobile phone camera module;

3. the feeding and discharging mechanism is used for picking and placing the mobile phone camera module according to the position information calculated by the upper vision camera, and the lower vision camera is used for correcting the angle of the picked mobile phone camera module, so that the accuracy of picking and placing the mobile phone camera module is improved.

Drawings

Fig. 1 shows an overall structural schematic diagram of a full-automatic mobile phone camera module function test device according to an embodiment of the present application;

fig. 2 shows a schematic structural diagram of a station switching structure of a full-automatic mobile phone camera module function test device according to an embodiment of the present application;

fig. 3 shows a schematic structural diagram of a black and white field test structure of a full-automatic mobile phone camera module function test device according to an embodiment of the present application;

fig. 4 shows a schematic structural diagram of a lens switching structure of a full-automatic mobile phone camera module function test device according to an embodiment of the present application;

fig. 5 shows a schematic structural diagram of a feeding and discharging mechanism of a full-automatic mobile phone camera module function test device according to an embodiment of the present application.

Description of reference numerals:

1. fixing the frame;

2. a station switching structure; 21. a turntable; 22. a jig table; 23. a cross plate;

3. a black and white field test structure; 31. a black and white field bracket; 32. a white field light source; 33. a black field module; 34. a drive assembly; 341. a linear slide rail; 342. sliding and buckling; 343. a drive motor;

4. a lens switching structure; 41. a support plate; 42. a lens; 43. a first sliding table; 44. a second sliding table; 45. a rolling bearing;

5. a near focus test configuration;

6. an image adjusting structure; 61. a lifting assembly; 611. a thread ring; 612. a lifting support; 613. a screw rod; 614. a knob; 615. a V-belt drive member; 62. an image adjusting module;

7. a feeding and discharging mechanism; 71. a support frame; 711. supporting legs; 712. mounting a beam; 72. a longitudinal drive assembly; 721. a guide rod; 722. a longitudinal slide rail; 723. a longitudinal motor; 724. mounting a plate; 725. a circular hole; 726. a guide hole; 73. a transverse drive assembly; 731. a transverse motor; 732. a lead screw; 74. a suction nozzle head assembly; 741. a suction nozzle head; 742. a suction nozzle driver; 743. a drive plate;

8. a camera vision structure; 81. an upper vision camera; 82. a lower vision camera;

9. a material tray structure; 91. a disc to be tested; 92. a defective disc.

Detailed Description

The technical solutions in the embodiments of the present application will be described clearly and completely with reference to the accompanying drawings 1-5 in the embodiments of the present application, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present application without making any creative effort, shall fall within the protection scope of the present application. It is to be understood that the drawings are designed solely for the purposes of illustration and description and not as a definition of the limits of the invention. The connection relationships shown in the drawings are for clarity of description only and do not limit the manner of connection.

Unless defined otherwise, technical or scientific terms used herein shall be defined as commonly understood by one of ordinary skill in the art to which this invention belongs. The present invention is described in the specification and claims of the present application, and the terms "upper", "lower", "left", "right", and the like are used only for indicating the corresponding positional relationship, and when the absolute position of the object to be described is changed, the relative positional relationship may be changed accordingly.

The embodiment of the application discloses full-automatic mobile phone camera module function test equipment.

Referring to fig. 1, a full-automatic mobile phone camera module function test device includes a fixed frame 1, a station switching structure 2, a black and white field test structure 3, a lens switching structure 4, and a near focus test structure 5. The station switching structure 2, the black and white field testing structure 3, the lens switching structure 4 and the near focus testing structure 5 are all arranged on the fixed rack 1. Wherein, the near focus test structure 5 is disposed below the lens switching structure 4. Carrying out dust point and dead point test on the mobile phone camera module by using the black and white field test structure 3; the lens switching structure 4 can be used for realizing the switching between the far focus test and the middle focus test, and the near focus test structure 5 can be used for simulating the near focus working distance of the mobile phone camera module to be tested, so that the near focus analysis force test is carried out.

Referring to fig. 1 and 2, further, the station switching structure 2 includes a rotary table 21 and four jig tables 22, a cross plate 23 is disposed at an output end of the rotary table 21, and the cross plate 23 may be fixed at the output end of the rotary table 21 by bolts. The other end of revolving stage 21 sets up in fixed frame 1, and four tool platforms 22 one-to-one set up in four ends of cross flat 23, and tool platform 22's setting mode can be for bonding on cross flat 23, can also be the bolt fastening on cross flat 23. The fixture table 22 is opposite to the black-and-white field test structure 3, the near focus test structure 5, and the lens switching structure 4 during testing. The rotary table 21 rotates 90 degrees in sequence, so that the four jig tables 22 are sequentially switched to 90-degree positions, the four jig tables 22 are circularly arranged, four different test items are carried out, the occupied area of equipment is effectively saved, the manufacturing cost of the equipment is saved, and the service efficiency of the equipment is improved.

Referring to fig. 1 and 3, the black-and-white field test structure 3 includes a black-and-white field support 31, a white field light source 32, a black field module 33, and a driving assembly 34, wherein the white field light source 32 and the black field module 33 are disposed at one side of the black-and-white field support 31 side by side, the white field light source 32 and the black field module 33 are opposite to the fixture table 22 (refer to fig. 2), and the driving assembly 34 is disposed at the other side of the black-and-white field support 31. Specifically, the driving assembly 34 includes a linear sliding rail 341, a sliding buckle 342, and a driving motor 343, the linear sliding rail 341 is disposed on the fixed frame 1, and the linear sliding rail 341 may be adhered to the fixed frame 1, or may be fixed on the fixed frame 1 by a bolt. The driving motor 343 is disposed at one end of the linear sliding rail 341, the slider 342 is disposed at one end of the black-and-white field bracket 31 away from the white field light source 32, the slider 342 and the linear sliding rail 341 are engaged with each other, and the slider 342 may be adhered to the black-and-white field bracket 31 or integrally formed on the black-and-white field bracket 31. The output shaft of the driving motor 343 is connected to the black and white field bracket 31 at a side close to the slider 342. The black and white field support 31 is driven by the driving motor 343 to move along the length direction of the linear sliding rail 341, so that the white field light source 32 and the black field module 33 on the black and white field support 31 move along the feeding direction. For example, the black and white field bracket 31 moves in a direction close to the loading and unloading mechanism 7, the white field light source 32 is located above the jig table 22, the black and white field bracket 31 moves in a direction away from the loading and unloading mechanism 7, and the black field module 33 is located above the jig table 22. Therefore, the white field light source 32 and the black field module 33 are linearly switched under the driving of the driving motor 343, and the black field test environment and the white field test environment are respectively manufactured for the mobile phone camera module.

Referring to fig. 1 and 4, the lens switching mechanism 4 includes a support plate 41, a lens 42, a first sliding table 43, a second sliding table 44, and a rolling bearing 45, where the first sliding table 43 is disposed on the fixed frame 1, and the first sliding table 43 may be welded to the fixed frame 1 or may be fixed to the fixed frame 1 by bolts. The side edge of the supporting plate 41 is arranged on one side of the first sliding table 43 departing from the fixed frame 1, the second sliding table 44 is arranged on the other side edge opposite to the supporting plate 41, the lens 42 is arranged on the second sliding table 44 through the rolling bearing 45, and the lens 42 can rotate by 90 degrees manually around the axis of the rolling bearing 45. When the lens 42 is switched to a position right under the center of the image adjusting structure 6 and right above the jig stage 22 (see fig. 2), the afocal test of the mobile phone camera module can be performed. Otherwise, the middle coke test was performed. Utilize first slip table 43 and second slip table 44 to realize finely tuning lens 42 center and cell-phone camera module center and reach accurate location, improve equipment's use accuracy.

Referring to fig. 1, a full-automatic mobile phone camera module function test device includes an image adjusting structure 6. Specifically, the image adjusting structure 6 includes a lifting assembly 61 and an image adjusting module 62, the lifting assembly 61 is disposed on the fixed frame 1, and the lifting assembly 61 may be welded on the fixed frame 1 or may be bolted on the fixed frame 1. The image adjusting module 62 is disposed on the lifting assembly 61, and the image adjusting module 62 is located above the station switching structure 2. The lifting assembly 61 can lift the image adjusting module 62 up and down along the vertical direction, so that the image adjusting module 62 can collect images, and image collection at different distances can be completed.

Referring to fig. 1, further, the lifting assembly 61 includes a threaded ring 611, a lifting bracket 612, a screw rod 613, a knob 614 and a V-belt transmission member 615, the screw rod 613 is disposed on the lifting bracket 612, the knob 614 can be welded to one end of the screw rod 613, the V-belt transmission member 615 is disposed at the other end of the screw rod 613, the threaded ring 611 is sleeved on the screw rod 613, and a side of the image adjusting module 62 is connected to an outer side of the threaded ring 611. The V-belt drive 615 provides a high friction and compact structure for smooth drive.

Referring to fig. 1 and 5, the full-automatic mobile phone camera module function test equipment further comprises a feeding and discharging mechanism 7, wherein the feeding and discharging mechanism 7 is arranged on the fixed frame 1, the feeding and discharging mechanism 7 comprises a support frame 71, a longitudinal driving assembly 72 and a transverse driving assembly 73, the support frame 71 is driven to move along the feeding direction by the longitudinal driving assembly 72, the support frame 71 comprises two support legs 711 and an installation beam 712, the two support legs 711 are respectively connected to two ends of the installation beam 712, and the support legs 711 are connected to the longitudinal driving assembly 72. The mounting beam 712 is arranged along the direction perpendicular to the feeding direction, the transverse driving assembly 73 is arranged on the mounting beam 712, the nozzle head assembly 74 is arranged on the transverse driving assembly 73, and the nozzle head assembly 74 is arranged on the transverse driving assembly 73 through the driving plate 743. The transverse driving component 73 drives the suction nozzle head component 74 to move along the direction vertical to the feeding direction.

Referring to fig. 1 and 5, specifically, the longitudinal driving assembly 72 includes a guide rod 721, a longitudinal sliding rail 722 and a longitudinal motor 723, the longitudinal sliding rail 722 is fixed on the fixed frame 1 in a manner that the longitudinal sliding rail 722 is welded on the fixed frame 1, or the longitudinal sliding rail 722 is fixed on the fixed frame 1 by bolts. The two longitudinal slide rails 722 are arranged in parallel along the feeding direction, two ends of one longitudinal slide rail 722 are provided with mounting plates 724, and the mounting plates 724 can be adhered to the longitudinal slide rails 722 or fixed on the longitudinal slide rails 722 through bolts. Round holes 725 are formed in the mounting plate 724, guide holes 726 are formed in the positions, connected with the longitudinal sliding rails 722, of the supporting legs 711, and the guide rods 721 penetrate through the guide holes 726 and the round holes 725 to limit the supporting frame 71 to move in the feeding direction. The longitudinal motor 723 is arranged at one end of the longitudinal sliding rail 722, and the output end of the longitudinal motor 723 is connected to the supporting leg 711 to drive the supporting frame 71 to move along the feeding direction.

Referring to fig. 1 and 5, the transverse drive assembly 73 includes a transverse motor 731 and a lead screw 732. Specifically, the transverse motor 731 is disposed at one end of the mounting beam 712, an output end of the transverse motor 731 is connected to one end of a lead screw 732, the other end of the lead screw 732 is fixed to the mounting beam 712, and the driving plate 743 is connected to the lead screw 732 through a threaded sleeve.

Referring to fig. 1 and 5, specifically, two guide grooves are formed in the driving plate 743, the nozzle head assembly 74 includes two nozzle heads 741 and a nozzle driving machine 742, the two nozzle heads 741 are disposed on the driving plate 743 side by side, the nozzle driving machine 742 is disposed on the driving plate 743 through a bolt, and an output shaft of the nozzle driving machine 742 passes through the guide grooves and is respectively connected to the two nozzle heads 741, so that the nozzle heads 741 move up and down, wherein the two nozzle heads 741 move relatively. One suction nozzle 741 is used for sucking the tested mobile phone camera module from the jig table 22 corresponding to the station switching structure 2, and the other suction nozzle 741 is used for sucking the mobile phone camera module to be tested, so that the mobile phone camera modules in different areas can be synchronously grabbed, and the working efficiency is improved, so that the suction nozzle assembly 74 can suck the mobile phone camera modules to be tested at different positions.

Referring to fig. 1 and 5, the full-automatic mobile phone camera module function testing device further includes a camera vision structure 8, the camera vision structure 8 includes an upper vision camera 81 and a lower vision camera 82, the upper vision camera 81 is disposed on one side of the support frame 71 facing the nozzle assembly 74; the lower vision camera 82 is disposed at the other side of the support frame 71 toward the stationary gantry 1. The loading and unloading mechanism 7 takes and places the mobile phone camera module according to the position information calculated by the upper vision camera 81, and then the lower vision camera 82 is used for carrying out angle correction on the position of the taken mobile phone camera module, so that the accuracy of taking and placing the mobile phone camera module is improved.

Referring to fig. 1, the full-automatic mobile phone camera module function test equipment further comprises a material tray structure 9, the material tray structure 9 is arranged on the fixed rack 1, the material tray structure 9 comprises two to-be-tested trays 91 and a defective tray 92, and the moving area of the feeding and discharging mechanism 7 covers the material tray structure 9. The suction nozzle 741 grabs the mobile phone camera module in the disc to be tested 91 onto the station switching structure 2, after the mobile phone camera module is tested by the image adjusting structure 6, the black and white field testing structure 3 and the lens switching structure 4, whether the mobile phone camera module is qualified is judged, the unqualified mobile phone camera module is grabbed into the bad disc 92 by the feeding and discharging structure, the qualified mobile phone camera module is grabbed and taken back into the other two discs to be tested 91, and the working efficiency of the device is improved.

The implementation principle of the full-automatic mobile phone camera module function test equipment in the embodiment of the application is as follows: the mode that the station switches the structure and adopts the quadruplex position rotation to switch is utilized, carries out black and white field test, near burnt test, well burnt test, far focus test to the cell-phone module of making a video recording, effectively saves equipment area, practices thrift equipment cost of manufacture, promotes equipment availability factor.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a full-automatic cell-phone module function test equipment of making a video recording which characterized in that includes:

a stationary frame (1);

the station switching structure (2) comprises a rotary table (21) and four jig tables (22), a cross flat plate (23) is arranged at the output end of the rotary table (21), the other end of the rotary table (21) is arranged on the fixed rack (1), and the four jig tables (22) are arranged at four ends of the cross flat plate (23) in a one-to-one correspondence manner;

the black and white field testing structure (3) is used for testing dust points and dead spots, and the black and white field testing structure (3) is arranged on the fixed rack (1);

the lens switching structure (4) is used for realizing switching between an afocal test and a mid-focal test, and the lens switching structure (4) is arranged on the fixed rack (1);

the near-focus test structure (5), the near-focus test structure (5) is arranged on the fixed rack (1), and the near-focus test structure (5) is arranged below the lens switching structure (4);

the three jig tables (22) are opposite to the black and white field test structure (3), the near focus test structure (5) and the lens switching structure (4) in position respectively during testing.

2. The full-automatic mobile phone camera module function test equipment according to claim 1, wherein the black and white field test structure (3) comprises a black and white field support (31), a white field light source (32), a black field module (33) and a driving component (34) for switching the white field light source (32) and the black field module (33) to work, the white field light source (32) and the black field module (33) are arranged on one side of the black and white field support (31) side by side, the white field light source (32) and the black field module (33) are opposite to the jig table (22), and the driving component (34) is arranged on the other side of the black and white field support (31).

3. The device for testing the functions of the camera module of the full-automatic mobile phone according to claim 2, wherein the driving assembly (34) comprises a linear slide rail (341), a slide fastener (342), and a driving motor (343), the linear slide rail (341) is disposed on the fixed frame (1), the driving motor (343) is disposed at one end of the linear slide rail (341), the slide fastener (342) is disposed at one end of the black and white field bracket (31) away from the white field light source (32), the slide fastener (342) and the linear slide rail (341) are fastened to each other, and an output shaft of the driving motor (343) is connected to one side of the black and white field bracket (31) close to the slide fastener (342).

4. The full-automatic mobile phone camera module function test equipment according to claim 1, wherein the lens switching structure (4) comprises a support plate (41), a lens (42), a first sliding table (43), a second sliding table (44) and a rolling bearing (45), the first sliding table (43) is arranged on the fixed frame (1), the side edge of the support plate (41) is arranged on one side of the first sliding table (43) departing from the fixed frame (1), the second sliding table (44) is arranged on the other side edge opposite to the support plate (41), the lens (42) is arranged on the second sliding table (44) through the rolling bearing (45), and the lens (42) is opposite to one of the jig tables (22).

5. The full-automatic mobile phone camera module function test equipment according to claim 1, further comprising an image adjusting structure (6), wherein the image adjusting structure (6) comprises a lifting assembly (61) and an image adjusting module (62) for collecting images, the lifting assembly (61) is disposed on the fixed frame (1), the image adjusting module (62) is disposed on the lifting assembly (61), and the image adjusting module (62) is located above the station switching structure (2).

6. The fully automatic mobile phone camera module function testing device according to claim 5, wherein the lifting component (61) comprises a threaded ring (611), a lifting bracket (612), a lead screw (613), a knob (614) and a V-belt transmission member (615), the lead screw (613) is inserted into the lifting bracket (612), the knob (614) is disposed at one end of the lead screw (613), the V-belt transmission member (615) is disposed at the other end of the lead screw (613), the threaded ring (611) is sleeved on the lead screw (613), and a side of the image adjusting module (62) is connected to an outer side of the threaded ring (611).

7. The full-automatic mobile phone camera module function testing equipment of claim 1, further comprising a feeding and discharging mechanism (7), wherein the feeding and discharging mechanism (7) is arranged on the fixed rack (1), the feeding and discharging mechanism (7) comprises a support frame (71), a longitudinal driving assembly (72) and a transverse driving assembly (73), the longitudinal driving assembly (72) and the transverse driving assembly are used for driving the support frame (71) to move along a feeding direction, the support frame (71) is connected to the longitudinal driving assembly (72), a nozzle head assembly (74) is arranged on the transverse driving assembly (73), and the transverse driving assembly (73) is arranged on the support frame (71) so that the transverse driving assembly (73) drives the nozzle head assembly (74) to move along a direction perpendicular to the feeding direction.

8. The fully automatic mobile phone camera module function testing device according to claim 7, wherein the nozzle head assembly (74) comprises two nozzle heads (741), and the two nozzle heads (741) are arranged side by side on the transverse driving assembly (73).

9. The fully automatic mobile phone camera module function test equipment according to claim 7, further comprising a camera vision structure (8), wherein the camera vision structure (8) comprises an upper vision camera (81) and a lower vision camera (82), the upper vision camera (81) is disposed on one side of the support frame (71) facing the suction nozzle head assembly (74) to obtain position coordinates of the mobile phone camera module to be tested; the lower vision camera (82) is arranged on the other side of the support frame (71) and faces the fixed rack (1) so as to correct the position coordinate of the mobile phone camera module to be detected.

10. The full-automatic mobile phone camera module function testing equipment according to claim 7, further comprising a tray structure (9), wherein the tray structure (9) is disposed on the fixed frame (1), the tray structure (9) comprises two discs to be tested (91) and a bad disc (92), and a moving area of the loading and unloading mechanism (7) covers the tray structure (9).

Images