CN209593646U - A kind of full-automatic TOF Camera Test equipment - Google Patents

Abstract

The utility model discloses a kind of full-automatic TOF Camera Test equipment, including body, testing agency, workpiece stage driving mechanism, conveying mechanism and workpiece manipulator, body is equipped with the workpiece stage for loading TOF camera；Testing agency includes image acquisition board, acquisition camera and integrating sphere, and image acquisition board and integrating sphere are installed on body；The lower section that workpiece stage driving mechanism is used to that workpiece stage to be driven to move to image acquisition board, so that the TOF camera in workpiece stage carries out infrared shooting to image acquisition board；Acquisition camera gives workpiece stage mechanism for acquiring the infrared light spot on image acquisition board and sending acquisition signal；Workpiece stage driving mechanism drives workpiece stage to move to below integrating sphere according to acquisition signal.The full-automatic TOF Camera Test equipment of the utility model can detect the infrared optical power of TOF camera.

Description

A kind of full-automatic TOF Camera Test equipment

Technical field

The utility model relates to Camera Test equipment technical field more particularly to a kind of full-automatic TOF Camera Tests Equipment.

Background technique

Currently, with universal, necessary component of the camera as most of electronic equipments of electronic equipment, and camera In production process, need to test its performance.And for currently popular TOF camera (depth camera), belong to red Outer 3D camera needs to detect its infrared optical power and is detected, because of infrared power after preventing it from producing when producing detection Greatly human eye is caused to damage.But the existing automation degree of equipment for TOF camera detection is low, and test is caused to be imitated Rate drop.

Utility model content

For overcome the deficiencies in the prior art, the purpose of this utility model is to provide a kind of full-automatic TOF cameras to survey Equipment is tried, the infrared optical power of TOF camera can be detected.

The purpose of this utility model is implemented with the following technical solutions:

A kind of full-automatic TOF Camera Test equipment, including body, testing agency, workpiece stage driving mechanism, conveyer Structure and workpiece manipulator, body are equipped with the workpiece stage for loading TOF camera；Testing agency includes Image Acquisition Plate, acquisition camera and integrating sphere, image acquisition board and integrating sphere are installed on body；Workpiece stage driving mechanism is used for Workpiece stage is driven to move to the lower section of image acquisition board, so that the TOF camera in workpiece stage carries out image acquisition board Infrared shooting；The acquisition camera is for acquiring the infrared light spot on described image collection plate and sending acquisition signal to described Workpiece stage driving mechanism；Workpiece stage driving mechanism drives the workpiece stage to move to integrating sphere according to the acquisition signal Lower section；Conveying mechanism is for conveying TOF camera；The TOF that workpiece manipulator is used to clamp in the conveying end face of conveying mechanism takes the photograph As on head to workpiece stage.

Preferably, the testing agency further includes that mounting rack, fixed frame and fixed frame driving assembly, mounting rack are fixed in On body, fixed frame is installed on mounting rack and can move under the drive of fixed frame driving assembly along Z-direction；Image Acquisition Plate and acquisition camera are mounted on fixed frame；Acquisition camera is located at the top of image acquisition board.

Preferably, fixed frame is equipped with mounting base and mounting base driving assembly, and mounting base can be in mounting base driving assembly Drive under moved along Z-direction；The acquisition camera is installed in mounting base.

Preferably, mounting base is equipped with acquisition camera driving assembly, and acquisition camera driving assembly is for driving acquisition Camera is rotated around X-direction and Y direction, and acquisition camera driving assembly is also used to drive acquisition camera along the x axis It is moved with Y direction；

Acquisition camera driving assembly includes the first bootstrap block, the second bootstrap block, third bootstrap block and the 4th bootstrap block, The sliding of first bootstrap block is installed in mounting base and slides along the x axis；The sliding of second bootstrap block is installed on the first guidance It slides on block and along the y axis；The top of second bootstrap block is equipped with the first arc groove；The arc axis of first arc groove is along X-axis Direction extends；The bottom end of the third bootstrap block is equipped with the first circular arc convex block being slidably matched with the first arc groove；Third guidance The top of block is equipped with the second arc groove；The arc axis of second arc groove extends along the y axis；The bottom end of 4th bootstrap block Equipped with the second circular arc convex block being slidably matched with the second arc groove；The acquisition camera is installed on the 4th bootstrap block.

Preferably, the body upper integral ball-collecting rack, the integral ball-collecting rack are fixed on body, and the integral ball-collecting rack is equipped with Integrating sphere driving assembly and the integrating sphere, integrating sphere driving assembly is for driving integrating sphere to move along Z-direction.

Preferably, workpiece stage driving mechanism includes the first electronic slide unit and the second electronic slide unit, the first electronic slide unit It is installed on body and is arranged along the x axis；The second electronic slide unit is installed on the first electronic slide unit by the first mounting plate Slide unit on；Second electronic slide unit is arranged along the y axis；The workpiece stage is installed on the slide unit of the second electronic slide unit.

Preferably, the slide unit of the second electronic slide unit is equipped with the first swivel base and first motor, and the shaft of first motor is along Y Axis direction extension is simultaneously affixed with the first swivel base；First swivel base is equipped with the second swivel base and the second motor, and the shaft of the second motor is along X Axis direction extension is simultaneously affixed with the second swivel base；Second swivel base is equipped with third motor, and the shaft of third motor is prolonged along Z-direction It stretches；The workpiece stage and the shaft of third motor are affixed.

Preferably, the workpiece stage is equipped with workpiece jig and testing cassete, and workpiece jig includes pcb board, jig bottom Seat, heating module and workpiece fixed block, pcb board are fixed in the bottom end of jig base；Heating module and workpiece fixed block are equal Set on the top of jig base；The workpiece fixed block is located at the top of heating module；The workpiece fixed block is equipped with workpiece slot； The testing cassete and heating module are electrically connected with pcb board；Heat insulation is equipped between the heating module and jig base；Institute State heating module built-in temperature controller.

Preferably, the starting point of conveying mechanism is equipped with feed mechanism, and feed mechanism includes material frame, clamping device and support Mechanism, material frame is for stacking multiple charging trays；The bottom end of material frame is equipped with discharge port；Clamping device is for clamping or unclamping positioned at material frame The charging tray of lowermost end；What supporting mechanism was used to abut when towards close to discharge port movement to described positioned at material frame lowermost end Charging tray.

Preferably, the end of conveying mechanism is equipped with cutting agency and rejected product sink block；The structure of cutting agency with The structure of the feed mechanism is identical；Unqualified sink block is used to receive the unqualified TOF camera of workpiece manipulator clamping.

Compared with prior art, the utility model has the beneficial effects that: it is being tested, workpiece manipulator can clamp defeated It send the TOF camera in the conveying end face of mechanism to load to workpiece stage, drives workpiece stage in workpiece stage driving mechanism The lower section for moving to image acquisition board, when below image acquisition board, TOF camera can emit infrared light through Image Acquisition Plate, acquisition camera can to through image acquisition board infrared light spot and send acquisition signal, workpiece jig driving mechanism band root It drives at workpiece jig to integrating sphere, carries out to light, integrating sphere can be adopted at this time to workpiece jig driving mechanism according to acquisition signal Collect the infrared light of TOF camera, test most strong optical power and structural feedback will be tested, high degree of automation, testing efficiency height.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the partial structural diagram of the utility model；

Fig. 3 is the local structural scheme of mechanism of the mechanism for testing of the utility model；

Fig. 4 is the structural schematic diagram of the integrating sphere of the mechanism for testing of the utility model；

Fig. 5 is the workpiece stage of the utility model and the structural schematic diagram of workpiece stage driving mechanism.

In figure: 10, body；20, workpiece stage；30, mechanism for testing；31, image acquisition board；32, acquisition camera；33, Mounting rack；331, fixed frame driving assembly；34, fixed frame；341, mounting base driving assembly；342, mounting base；343, first draws Guide block；344, the second bootstrap block；345, third bootstrap block；346, the 4th bootstrap block；40, workpiece stage driving mechanism；41, first Electronic slide unit；42, the second electronic slide unit；43, first motor；44, the first swivel base；45, the second motor；46, the second swivel base；47, Third motor；50, conveying mechanism；51, feed mechanism；52, cutting agency；53, workpiece manipulator.

Specific embodiment

In the following, being described further in conjunction with attached drawing and specific embodiment to the utility model:

A kind of full-automatic TOF Camera Test equipment as shown in Figs. 1-5, including body 10, testing agency, workpiece stage Driving mechanism 40, conveying mechanism 50 and workpiece manipulator 53, are equipped with workpiece stage 20 on body 10, and workpiece stage 20 is used for Load TOF camera.Specific testing agency includes image acquisition board 31, acquisition camera 32 and integrating sphere, by Image Acquisition Plate 31 and integrating sphere are installed on body 10.Workpiece stage driving mechanism 40 is adopted for driving workpiece stage 20 to move to image The lower section of collection plate 31 makes the TOF camera pair in workpiece stage 20 when workpiece stage 20 moves to below image acquisition board 31 Image acquisition board 31 carries out infrared shooting.At this point, acquisition camera 32 is used to acquire the infrared light spot on image acquisition board 31 simultaneously Acquisition signal is sent to workpiece stage driving mechanism 40；Workpiece stage driving mechanism 40 drives workpiece stage 20 according to acquisition signal It moves to below integrating sphere.Above-mentioned conveying mechanism 50 can be used for conveying TOF camera, and above-mentioned mechanism for testing 30 can be located at conveyer On the conveying direction of structure 50；Workpiece manipulator 53 can clamp the TOF camera in the conveying end face of conveying mechanism 50 and load to work On part microscope carrier 20.

When on the basis of the said structure, using the full-automatic TOF Camera Test equipment of the utility model, conveying mechanism 50 Conveying end face on can form a loading and unloading station, conveying mechanism 50 is delivered to up and down by the charging tray for being mounted with TOF camera After expecting station, pause conveying, workpiece manipulator 53 can clamp TOF camera and load to workpiece stage 20.

The drive of workpiece stage driving mechanism 40 workpiece stage 20 moves to the lower section of image acquisition board 31, in image acquisition board When 31 lower section, TOF camera can emit infrared light through image acquisition board 31, and acquisition camera 32 can be to through Image Acquisition The infrared light spot of plate 31 simultaneously sends acquisition signal, and workpiece jig driving mechanism band gives workpiece jig driving mechanism according to acquisition signal It drives at workpiece jig to integrating sphere, acquisition camera 32 can acquire 31 infrared light spot of image acquisition board, and to find TOF camera red The most bright spot of outer light, and workpiece stage driving mechanism 40 can drive TOF camera to the lower section of integrating sphere according to the signal, make Its most bright spot is located at the bottom of integrating sphere, carries out to light, at this time integrating sphere can acquire TOF camera infrared light it is most bright Point, i.e., most strong optical power point, so that infrared light power test is carried out, and high degree of automation, testing efficiency height.

After above-mentioned completion test, the TOF camera that workpiece manipulator 53 can clamp after completing test is reapposed in material On disk, and so on, after all TOF cameras on same charging tray complete test, conveying mechanism 50 continue to convey charging tray into Row blanking.

It should be noted that above-mentioned image acquisition board 31 is specifically to be formed by fixed frame and perspective film, perspective film is fixed on It, can be for infrared light on fixed frame.

Workpiece manipulator 53 in specific the present embodiment may include the electronic slide unit of third, the 4th electronic slide unit, the 5th electronic Slide unit, vacuum chuck component and positioning shooting head, the electronic slide unit of third are mounted on body 10 and are arranged along the x axis, the Four electronic slide units are mounted on the slide unit of the electronic slide unit of third by plate, and the 4th electronic slide unit is arranged along the y axis；5th electricity Dynamic slide unit can be mounted on the 4th electronic slide unit by plate, and the 5th electronic slide unit is arranged along Z-direction；The vacuum chuck group Part and positioning shooting head are installed on the slide unit of the 5th electronic slide unit, in this way, vacuum chuck component and positioning shooting head can It is moved under the drive of the electronic slide unit of third, the 4th electronic slide unit and the 5th electronic slide unit along X-axis, Y-axis and Z-direction, Positioning shooting head can carry out positioning of taking pictures to the TOF camera on charging tray, and vacuum chuck component can be clapped according to positioning shooting head Take the photograph the pick-and-place that result carries out TOF camera.

Preferably, the testing agency in the present embodiment further includes mounting rack 33, fixed frame 34 and fixed frame driving assembly 331, mounting rack 33 is fixed on body 10, above-mentioned fixed frame 34 is installed on mounting rack 33, in fixed frame driving assembly 331 Drive under, fixed frame 34 can be moved along Z-direction, i.e., fixed frame 34 can move up and down.In addition, above-mentioned image acquisition board 31 with And acquisition camera 32 is mounted on fixed frame 34；Acquisition camera 32 is located at the top of image acquisition board 31.In this way, into When row test, when workpiece stage 20 moves to the lower section of image acquisition board 31, fixed frame 34 can be driven by 34 component of fixed frame On image acquisition board 31 and acquisition camera 32 move up and down, TOF camera and image acquisition board 31 in workpiece stage 20 Spacing it is adjustable, according to the TOF camera of different size adjust spacing, convenient for test different size TOF camera.

It should be noted that above-mentioned fixed frame driving assembly 331 can be by lead screw transmission mechanism in the prior art or straight Line motor is realized.In the present embodiment, fixed frame driving assembly 331 includes screw rod, nut, guide pad, guide rail and handwheel, Screw rod is fixed on mounting rack 33, and it is outer and affixed with fixed frame 34 that nut thread is set in screw rod；Guide rail is fixed in fixed frame 34 Above and along Z-direction extend；Guide pad is slidably matched and affixed with fixed frame 34 with guide rail；Above-mentioned handwheel is fixed with screw rod, is turned Starting to take turns can rotate with screw rod, and screw rod rotation drives nut rotation, and the rotation of nut can be limited by fixed frame 34, in guide pad Under the cooperation of guide rail, fixed frame 34 is moved along Z-direction.

Further, being equipped with mounting base 342 and mounting base driving assembly 341 on fixed frame 34, mounting base 342 can It is moved under the drive of mounting base driving assembly 341 along Z-direction；Acquisition camera 32 is installed in mounting base 342.In this way, Mounting base driving assembly 341 can drive mounting base 342 to move along Z-direction, i.e. acquisition camera 32 in mounting base 342 can be with It moves up and down, i.e., the spacing between acquisition camera 32 and image acquisition board 31 is adjustable, consequently facilitating acquisition camera 32 is not Infrared light spot on same height acquisition image acquisition board 31, test is more comprehensively.It should be noted that mounting base driving assembly 341 can be identical as above-mentioned 331 structure of fixed frame driving assembly.

Preferably, mounting base 342 is equipped with 32 driving assembly of acquisition camera, which can band Dynamic acquisition camera 32 is rotated around X-direction and Y direction, and 32 driving assembly of acquisition camera is also used to that acquisition is driven to image First 32 move with Y direction along the x axis.In this way, can drive and adopt around X-axis and Y direction rotation by acquisition camera 32 Collect infrared light spot of the camera 32 on different angle acquisition image acquisition board 31, and acquisition camera 32 is in X-direction and Y-axis The movement in direction can drive acquisition camera 32 to be acquired in the different location of image acquisition board 31.

Particularly, 32 driving assembly of acquisition camera includes the first bootstrap block 343, the second bootstrap block 344, third guidance Block 345 and the 4th bootstrap block 346, the sliding of the first bootstrap block 343 are installed in mounting base 342 and slide along the x axis.The The sliding of two bootstrap blocks 344 is installed on the first bootstrap block 343 and slides along the y axis.The top of second bootstrap block 344 is equipped with First arc groove；The arc axis of first arc groove extends along the x axis；The bottom end of third bootstrap block 345 is equipped with and the first circle The first circular arc convex block that arc slot is slidably matched；The top of third bootstrap block 345 is equipped with the second arc groove；The circular arc of second arc groove Axis extends along the y axis；The bottom end of 4th bootstrap block 346 is equipped with the second circular arc convex block being slidably matched with the second arc groove； Acquisition camera 32 is installed on the 4th bootstrap block 346.In this way, can be slided along the x axis by the first bootstrap block 343 can drive Acquisition camera 32 moves in the X-axis direction, and the second bootstrap block 344 slides acquisition camera 32 can be driven along Y-axis along the y axis The sliding of direction movement, specific first bootstrap block 343 and the second bootstrap block 344 can be by manual slide unit in the prior art Lai real It is existing.In addition, the first circular arc convex block of 345 bottom end of third bootstrap block can be sliding along first arc groove on 344 top of the second bootstrap block It is dynamic, drive acquisition camera 32 to rotate around Y direction, and the second circular arc convex block of 346 bottom end of the 4th bootstrap block can draw along third Second arc groove on 345 top of guide block slides, and acquisition camera 32 is driven to rotate around X-direction.Certainly, the third bootstrap block 345 and the 4th bootstrap block 346 rotation it is manually adjustable.

Preferably, integral ball-collecting rack can be also fixed on body 10 in 10 upper integral ball-collecting rack of body, it is specific to integrate on ball-collecting rack Equipped with integrating sphere driving assembly and integrating sphere, integrating sphere driving assembly is for driving integrating sphere to move along Z-direction.Equally , when workpiece stage 20 moves to below integrating sphere, integrating sphere driving assembly can drive integrating sphere to move up and down, adjustment integral The spacing between TOF camera on ball and workpiece stage 20, is acquired convenient for integrating sphere in different height.

Certainly, the structure of integrating sphere driving assembly can also be identical as the structure of above-mentioned fixed frame driving assembly 331.

Preferably, in the present embodiment, workpiece stage driving mechanism 40 includes that the first electronic slide unit 41 and second is electronic First electronic slide unit 41 is installed on body 10 and is arranged along the x axis by slide unit 42；And the second electronic slide unit 42 passes through first Mounting plate is installed on the slide unit of the first electronic slide unit 41；Second electronic slide unit 42 is arranged along the y axis；Workpiece stage 20 is installed In on the slide unit of the second electronic slide unit 42.In this way, the slide unit of the first electronic slide unit 41 can drive workpiece stage 20 to transport along the x axis It is dynamic, and the slide unit of the second electronic slide unit 42 can drive workpiece stage 20 to move along the y axis, i.e., workpiece stage 20 can front and back, a left side Right movement drives TOF cam movement to the lower position of image acquisition board 31 and integrating sphere.

Further, the slide unit of the second electronic slide unit 42 is equipped with the first swivel base 44 and first motor 43, the first electricity The shaft of machine 43 extends and affixed with the first swivel base 44 along the y axis；First swivel base 44 is equipped with the second swivel base 46 and the second electricity Machine 45, the shaft of the second motor 45 extend and affixed with the second swivel base 46 along the x axis；Second swivel base 46 is equipped with third motor 47, the shaft of third motor 47 extends along Z-direction；Workpiece stage 20 and the shaft of third motor 47 are affixed.In this way, in workpiece It carries after loading TOF camera on seat, TOF can be driven to take the photograph by first motor 43, the second motor 45 and third motor 47 respectively Picture head is rotated rotating around Y-axis, X-axis and Z axis, rotates the TOF camera of workpiece stage 20 in different directions, convenient for integral Ball is in the optical power of different angle acquisition TOF cameras, and acquisition is more comprehensive, and test result is more accurate.

Preferably, workpiece jig and testing cassete can be also equipped in workpiece stage 20, specific workpiece jig includes PCB Plate, jig base, heating module and workpiece fixed block, pcb board are fixed in the bottom end of jig base；Heating module and workpiece Fixed block is set to the top of jig base；Workpiece fixed block is located at the top of heating module；Workpiece fixed block is equipped with workpiece slot； Testing cassete and heating module are electrically connected with pcb board.In this way, when testing, TOF camera can be placed on workpiece and consolidated Determine in the workpiece slot of block, TOF camera can be electrically connected with pcb board, i.e., be electrically connected with testing cassete, in test, test number According to testing cassete can be fed back to.And during the test, the TOF camera in workpiece slot can be heated by heating module, simulation is not The working condition of same TOF camera at different temperatures, is tested, and is tested more comprehensive.

Further, heat insulation can be also equipped between heating module and jig base, in this way, heating module can be prevented Pcb board is damaged in heating process.And the built-in temperature controller of heating module, heating temperature is controlled by temperature controller Degree, rationally controls heating temperature.The specific temperature controller can be selected as temperature controller (such as electronic temperature control in the prior art Device).

In the present embodiment, can the starting point of conveying mechanism 50 be equipped with feed mechanism 51, the feed mechanism 51 include material frame, Clamping device and supporting mechanism, for the specific material frame for stacking multiple charging trays, multiple charging tray can be along the short transverse of material frame It stacks.The bottom end of material frame is equipped with discharge port, and discharge port can be engaged on the starting point of conveying mechanism 50.Above-mentioned clamping device is used for The charging tray for being located at material frame lowermost end is unclamped in clamping.Supporting mechanism is used to abut when towards close to discharge port movement to positioned at material The charging tray of frame lowermost end.

In this structure basis, when feeding, multiple placements can be stacked in material frame by the charging tray of workpiece in advance, in feeding When, when starting feeding operation, supporting mechanism can be made to move towards the direction close to discharge port, supporting mechanism can be abutted to position at this time In the charging tray for being located at least significant end in material frame, charging tray will not be fallen from discharge port.At the same time, it unclamps clamping device and is located at material frame The charging tray of least significant end moves supporting mechanism away from the direction of discharge port, and charging tray can be under the effect of gravity As supporting mechanism is far from discharge port, clamping device is made to be held on the charging tray adjacent with the charging tray of material frame least significant end is located at again, Therefore during supporting mechanism continues far from discharge port, only one charging tray can fall to the starting point of conveying mechanism 50 therewith On, repeatedly, sustainable feeding.

Particularly, supporting mechanism may include that driving cylinder and support plate, the cylinder body of the driving cylinder are fixed in material frame Lower section, and drive the piston rod of cylinder can be towards moving close to or far from discharge port, support plate be fixed in driving cylinder Piston rod top end.In this structure basis, by driving the piston rod of cylinder to drive support plate flexible, in the mistake that support plate is stretched Cheng Zhong, support plate can be close or far from above-mentioned discharge ports, complete the support operation in above-mentioned feeding process to charging tray.

Preferably, clamping device includes at least two grip blocks, and at least two grip blocks are divided into the two sides of discharge port；Folder Holding block can rotate towards the direction close to or far from discharge port under external force.In this way, when clamping charging tray, discharge port two The grip block of side can be rotated towards discharge port, and the grip block of two sides can be abutted to the charging tray edge for being located at material frame bottom, be prevented Charging tray falls.And in discharging, above-mentioned supporting mechanism can go up liftout disk, and the grip block of two sides can be under the action of the top lift Far from discharge port, the charging tray for being located at least significant end is unclamped, charging tray can fall with supporting mechanism, and grip block then can be in self gravity Lower whereabouts is rotated towards close to discharge port.

Particularly, grip block can be joined by hinge in the prior art, and between grip block and discharge port It can be equipped with torsional spring, one end of torsional spring is abutted with grip block, and the other end of torsional spring is abutted with the top end face of discharge port.It is remote in grip block When separating out material mouth movement, grip block is to be rotated up far from discharge port, and grip block can reset under the action of torsional spring, support again It is connected to the top end face of discharge port, thus grip block will not be downwardly away from discharge port rotation, and charging tray oneself is thus prevented to fall.

Certainly, clamping device may also comprise at least two grip blocks, and same at least two grip block is divided into discharge port Two sides；But grip block can be arranged in a one-to-one correspondence grip block cylinder, stretched out by the piston rod of grip block cylinder, can make grip block It is connected on charging tray from two sides, and the piston rod of grip block cylinder retracts, then grip block can be driven far from charging tray, thus on completing State clamping operation.

Preferably, the end of conveying mechanism 50 be equipped with cutting agency 52 and unqualified sink block, cutting agency 52 with it is upper Expect that the structure of mechanism 51 is identical, unqualified sink block is used to receive the unqualified TOF camera of the clamping of workpiece manipulator 53.Specifically Blanking process can refer to above-mentioned feeding process, i.e., when conveying mechanism 50 conveys charging tray to material frame, can make the folder of cutting agency 52 It holds mechanism and unclamps the charging tray for being located at least significant end, supporting mechanism jacks the charging tray positioned at material frame least significant end upwards at this time, conveys at this time Charging tray in mechanism 50 can transport to charging tray, move downward charging tray supporting mechanism, then make gripper mechanism grips in positioned at most The charging tray of low side.Repeatedly, the blanking for completing charging tray stacks.Certainly, the TOF camera detected at mechanism for testing 30 It is unqualified when, workpiece manipulator 53 can directly clamp underproof TOF camera to unqualified sink block, be convenient for rejected product Centralized processing.

Come in fact it should be noted that belt conveyor in the prior art can be selected in the conveying mechanism 50 in the present embodiment It is existing.In other cases, chain conveying mechanism or roller conveyor structure also can be selected in conveying mechanism 50.

It will be apparent to those skilled in the art that can make various other according to the above description of the technical scheme and ideas Corresponding change and deformation, and all these changes and deformation all should belong to the protection of the utility model claims Within the scope of.

Claims (10)

1. a kind of full-automatic TOF Camera Test equipment, which is characterized in that including body, testing agency, workpiece stage driving machine Structure, conveying mechanism and workpiece manipulator, body are equipped with the workpiece stage for loading TOF camera；Testing agency includes Image acquisition board, acquisition camera and integrating sphere, image acquisition board and integrating sphere are installed on body；Workpiece stage driving The lower section that mechanism is used to that workpiece stage to be driven to move to image acquisition board, so that the TOF camera in workpiece stage adopts image Collect plate and carries out infrared shooting；The acquisition camera is for acquiring the infrared light spot on described image collection plate and sending acquisition letter Number give the workpiece stage driving mechanism；Workpiece stage driving mechanism drives the workpiece stage to move according to the acquisition signal Below to integrating sphere；Conveying mechanism is for conveying TOF camera；Workpiece manipulator is used to clamp the conveying end face of conveying mechanism TOF camera to workpiece stage on.

2. TOF Camera Test equipment as described in claim 1 full-automatic, which is characterized in that the testing agency further includes Mounting rack, fixed frame and fixed frame driving assembly, mounting rack are fixed on body, and fixed frame is installed on mounting rack and can be It is moved under the drive of fixed frame driving assembly along Z-direction；Image acquisition board and acquisition camera are mounted on fixed frame； Acquisition camera is located at the top of image acquisition board.

3. full-automatic TOF Camera Test equipment as claimed in claim 2, which is characterized in that fixed frame is equipped with mounting base And mounting base driving assembly, mounting base can move under the drive of mounting base driving assembly along Z-direction；The acquisition camera shooting Head is installed in mounting base.

4. full-automatic TOF Camera Test equipment as claimed in claim 3, which is characterized in that mounting base is equipped with acquisition and takes the photograph As head driving assembly, acquisition camera driving assembly is for driving acquisition camera to rotate around X-direction and Y direction, acquisition Webcam driver component is also used to that acquisition camera is driven to move with Y direction along the x axis；

Acquisition camera driving assembly include the first bootstrap block, the second bootstrap block, third bootstrap block and the 4th bootstrap block, first Bootstrap block sliding is installed in mounting base and slides along the x axis；The sliding of second bootstrap block is installed on the first bootstrap block And it slides along the y axis；The top of second bootstrap block is equipped with the first arc groove；The arc axis of first arc groove is along the x axis Extend；The bottom end of the third bootstrap block is equipped with the first circular arc convex block being slidably matched with the first arc groove；Third bootstrap block Top is equipped with the second arc groove；The arc axis of second arc groove extends along the y axis；The bottom end of 4th bootstrap block is equipped with The second circular arc convex block being slidably matched with the second arc groove；The acquisition camera is installed on the 4th bootstrap block.

5. full-automatic TOF Camera Test equipment as described in claim 1, which is characterized in that the body upper integral ball-collecting rack, The integral ball-collecting rack is fixed on body, and the integral ball-collecting rack is equipped with integrating sphere driving assembly and the integrating sphere, integral Ball driving assembly is for driving integrating sphere to move along Z-direction.

6. full-automatic TOF Camera Test equipment as described in any one in claim 1-5, which is characterized in that workpiece stage is driven Motivation structure includes the first electronic slide unit and the second electronic slide unit, and the first electronic slide unit is installed on body and sets along the x axis It sets；The second electronic slide unit is installed on the slide unit of the first electronic slide unit by the first mounting plate；Second electronic slide unit is along Y-axis Direction setting；The workpiece stage is installed on the slide unit of the second electronic slide unit.

7. full-automatic TOF Camera Test equipment as claimed in claim 6, which is characterized in that the slide unit of the second electronic slide unit It is equipped with the first swivel base and first motor, the shaft of first motor extends and affixed with the first swivel base along the y axis；First turn Seat is equipped with the second swivel base and the second motor, and the shaft of the second motor extends and affixed with the second swivel base along the x axis；Described Two swivel bases are equipped with third motor, and the shaft of third motor extends along Z-direction；The workpiece stage and the shaft of third motor are solid It connects.

8. full-automatic TOF Camera Test equipment as described in any one in claim 1-5, which is characterized in that the workpiece carries Platform is equipped with workpiece jig and testing cassete, and workpiece jig includes pcb board, jig base, heating module and workpiece fixed block, Pcb board is fixed in the bottom end of jig base；Heating module and workpiece fixed block are set to the top of jig base；The workpiece Fixed block is located at the top of heating module；The workpiece fixed block is equipped with workpiece slot；The testing cassete and heating module are and PCB Plate is electrically connected；Heat insulation is equipped between the heating module and jig base；The heating module built-in temperature controller.

9. full-automatic TOF Camera Test equipment as described in any one in claim 1-5, which is characterized in that conveying mechanism Starting point is equipped with feed mechanism, and feed mechanism includes material frame, clamping device and supporting mechanism, and material frame is for stacking multiple material Disk；The bottom end of material frame is equipped with discharge port；Clamping device is for clamping or unclamping the charging tray positioned at material frame lowermost end；Supporting mechanism is used It abuts in when towards close to discharge port movement to the charging tray positioned at material frame lowermost end.

10. full-automatic TOF Camera Test equipment as claimed in claim 9, which is characterized in that the end of conveying mechanism is equipped with Cutting agency and rejected product sink block；The structure of cutting agency is identical as the structure of the feed mechanism；Unqualified reception Frame is used to receive the unqualified TOF camera of workpiece manipulator clamping.