CN203443770U - Spectroscopic detection device for light-emitting diode module - Google Patents

Abstract

Disclosed is a spectroscopic detection device for a light-emitting diode module. The spectroscopic detection device includes a workbench, on which a detection station and a discharge station are disposed; a circular conveying mechanism; an ejector rod installed movably on a clamp and used for ejection of the light-emitting diode module on the clamp when the clamp is positioned on the discharge station; a pushing and pressing mechanism disposed on the discharge station of the workbench and used for pushing and pressing the ejector rod positioned on the discharge station upward; a holder which is installed on the workbench and on which a camera and a spectral probe are fixed; a lens hood movably installed on the workbench and positioned above the detection station; two conductive thimbles; a drive assembly for driving the lens hood and the conductive thimbles to move up and down in a height direction with respect to the circular conveying mechanism; and a controller for controlling the drive assembly and the circular conveying mechanism, wherein the spectral probe, the camera and the controller are connected. The utility model can be applied to spectroscopic detection of different light-emitting diode modules, and the labor intensity of operators is reduced.

Description

Minute optical detection device of light emitting diode module

Technical field

The utility model relates to light emitting diode module detection technique field, is specifically related to a kind of minute optical detection device of light emitting diode module.

Background technology

From glass bulb, be encapsulated into epoxy encapsulation again to SMD SMD encapsulation, chip integrated light source module packaging etc., along with deepening continuously that large-power light-emitting diodes is applied at semiconductor lighting, its encapsulation form has occurred repeatedly to change.Integrated light-emitting diode module packaging all relatively has superiority at aspects such as thermal diffusivity, brightness and quality, colour rendering and application.Such as light emitting diode module modularized encapsulation form structurally can play the effect that reduces binding layer and reduce overall thermal resistance, multiple chips support, contributes to luminance raising, and rational chip configuration, can improving optical effect.Integrated light-emitting diode module packaging has all been obtained a lot of progress at aspects such as substrate technology, encapsulation technology, detection technique, chip technologies, but the encapsulation of integrated light-emitting diode module still has some problems to be solved at present, such as production efficiency is on the low side, the straight-through yields of production is on the low side, light source light colourity consistance control difficulty is large etc.Along with the continuous expansion of light emitting diode range of application, user has had higher requirement to the quality of the product of light emitting diode, and colour temperature, brightness, colour developing that especially requires light emitting diode etc. has consistance.Therefore, no matter be the light emitting diode production of which kind of packaged type, all must carry out product selecting and test.

Light emitting diode module-light emitting diode of producing is at present mainly used in lighting source, very high to the coherence request of the photoelectric parameter of light emitting diode.But under existing semiconductor technology is created conditions, by improve technique in chip manufacturing or chip package process, to improve the consistance difficulty of product photoelectric parameter of light emitting diode module very large, and can cause the cost of light emitting diode greatly to raise.Therefore, in actual production, in order to improve the quality of light emitting diode module, conventionally according to the photoelectric parameter of light emitting diode, carry out strict sifting sort, thereby improve the consistance of the photoelectric parameter of light emitting diode.Therefore, the efficiency of raising sorting link and reliability are to improve the key factor of light emitting diode module-light emitting diode production efficiency and quality.But, the package module of the light emitting diode module of light emitting diode does not also form complete industry standard at present, the novel light emitting diode module package module emerging in multitude in existing market, its volume is large, size and shape diversification, final product form is varied, and the module automatic feed of the automatic sorting testing apparatus of traditional light emitting diode, transmission, discharging and test all cannot adapt to.Present stage, most of manufacturing enterprises still do not depart from the testing, sorting link of light emitting diode module the constraint that relies on manpower and off-line test equipment, have seriously restricted production efficiency and the reliability of its product.

Because the shape material of light emitting diode module substrate is numerous, not yet form industry standard.The diversification of light emitting diode module shape causes traditional automatic light splitting machine of discrete light emitting diode to be competent at.The problems such as current most of manufacturer still adopts manual light splitting, exists workload large, and efficiency is low, cannot meet large-scale production demand.Especially before detecting during material loading, need operating personnel manually to adjust test probe, make the terminals of test probe and light emitting diode module in electrical contact, so that spectrometer image data, during blanking, still need operating personnel to stir test probe, light emitting diode module is taken out, therefore, cause the light splitting detection efficiency of light emitting diode module lower and higher to the shape need of light emitting diode module.

In addition, because light emitting diode module inside has a plurality of LED luminescence units, if certain LED luminescence unit of light emitting diode module inside damages can not be luminous time, existing method of carrying out light splitting detection by spectrometer image data cannot detect the situation that the inner single led luminescence unit of light emitting diode module damages, and has had a strong impact on the quality of product.

Utility model content

For the deficiencies in the prior art, the purpose of this utility model is to provide a kind of minute optical detection device of light emitting diode module, its light splitting that can be suitable for difformity light emitting diode module detects, can detect the phenomenon whether light emitting diode module inside exists LED luminescence unit to damage, and can effectively reduce operating personnel's labour intensity simultaneously.

For achieving the above object, the utility model adopts following technical scheme:

Minute optical detection device of light emitting diode module, comprises,

Worktable, is provided with a detection station and discharging station on it;

Be installed on the cyclic conveyor structure on worktable, this cyclic conveyor structure is for being delivered to discharging station by the fixture of putting light emitting diode module by detecting station;

The movable ejector beam that is installed on fixture and the light emitting diode module on fixture is ejected when being positioned at discharging station at fixture;

Be positioned on the discharging station of worktable and for being positioned at the ejector beam top-pressure mechanism that upwards press on top of discharging station;

Be arranged on the fixed mount on worktable, on this fixed mount, be fixed with a camera and spectrum probe;

Be movably arranged on worktable and be positioned at the light shield that detects station top, the bottom of this light shield has opening, and the taking lens of camera and spectrum probe are arranged at light shield inside;

Two are respectively used to dock connection terminal in light emitting diode module in order to light emitting diode module is communicated in to the conduction thimble of external power source;

For the driven unit that drives light shield and conduction thimble to move up and down with respect to cyclic conveyor structure along short transverse;

For the controller of controlled circulation conveying mechanism and driven unit, spectrum probe, camera are connected with controller.

Cyclic conveyor structure comprises rotating index plate and the servomotor of body partial fixing on worktable and for driving index plate to rotate being arranged on worktable, and the control end of this servomotor is connected with controller.

The upper surface of index plate is dismountable is provided with a plurality of fixtures, and the plurality of fixture is around the pivot center circumference array of index plate; Fixture is positioned at the recess that index plate upper surface is offered, and the upper surface of fixture and the upper surface of index plate is concordant or lower than the upper surface of index plate, the upper surface of fixture offers one for putting the groove of light emitting diode module.

Ejector beam along short transverse extend and movable cross-under on fixture, between ejector beam and fixture, be provided with a retracing spring, this retracing spring is for providing an elastic stress that ejector beam is pushed up to pressure downwards, top-pressure mechanism is one to be arranged on the liftout projection on worktable discharging station, the height that on this liftout projection, a side relative with index plate rotation direction is provided with a ，Gai inclined-plane, inclined-plane is postponed the rotation direction of index plate gradually to increasing gradually.

Light shield inside is provided with a beam-splitter, the end of probe of spectrum probe be positioned at beam-splitter directly over, on beam-splitter, be provided with a light hole being positioned under the camera lens of camera.

Light shield inside is provided with two fixed covers, being connected in fixed cover of conduction thimble activity, and be provided with a back-moving spring between conduction thimble and fixed cover, this back-moving spring is for providing one conduction thimble is pushed up to the elastic stress of pressure downwards.

Driven unit comprises that drive motor, the light shield of body partial fixing on worktable is connected with the mode of screw rod transmission and the rotating shaft of drive motor.

On the roof of light shield, offer for the through hole for camera and spectrum probe activity cross-under.

The beneficial effects of the utility model are:

Than prior art, the light splitting that pick-up unit of the present utility model can be applicable to the light emitting diode module of different size, shape detects, it not only can analyze the optical property of light emitting diode module, whether the LED luminescence unit that can also detect light emitting diode module inside there is the phenomenon of damage, there is higher automaticity, can reduce operating personnel's labour intensity.

Accompanying drawing explanation

Fig. 1 is the structural representation of utility model;

Fig. 2 is the scheme of installation of minute optical detection device in Fig. 1;

Fig. 3 is the cut-open view of minute optical detection device in Fig. 1;

Fig. 4 is the structural representation of fixture in Fig. 2;

Fig. 5 is the vertical view that the utility model divides optical detection device;

Fig. 6 is the assembling schematic diagram of the utility model conduction thimble and fixed cover.

Wherein: 10, frame; 11, worktable; 12, liftout projection; 13, foot-switch; 21, index plate; 211, recess; 22, servomotor; 31, drive motor; 32, drive lead screw; 33, feed screw nut; 34, web joint; 35, erecting frame; 36, guide pole; 37, sliding sleeve; 40, fixed mount; 41, fixed head; 50, fixture; 501, groove; 502, through hole; 503, screw; 51, ejector beam; 52, retracing spring; 53, stop collar; 60, light shield; 61, beam-splitter; 62, through hole; 63, adapter sleeve; 71, camera; 72, spectrum probe; 80, conduction thimble; 81, fixed cover; 82, back-moving spring.

Embodiment

Below, by reference to the accompanying drawings and embodiment, the utility model is described further:

As shown in Fig. 1,2,3,4,5,6, for minute optical detection device of a kind of light emitting diode module of the utility model, it comprises frame 10, index plate 21, servomotor 22, six fixtures 50, six ejector beams 51, liftout projection 12, fixed mount 40, light shield 60, driven unit and controllers.

The top of frame 10 is provided with the worktable 11 of a level, servomotor 22 is positioned at frame 10 inside and body partial fixing at the lower surface of horizontal table 11, its rotating shaft is through horizontal table 11, in the rotating shaft that is arranged on servomotor 22 that index plate 21 is synchronous, under the drive of servomotor 22, index plate 21 can be around the rotation intermittently of its central shaft, six above-mentioned fixtures 50 are dismountable is arranged on the upper surface of index plate 21 and around the central shaft circumference array of index plate 21, in the process of rotating at index plate 21, it can drive fixture 50 to move to from the detection station being arranged at worktable 11 the discharging station being arranged on worktable 11, detect work bit position and discharging work bit position shown in Figure 5, in fact, no matter how index plate 21 rotates, detecting station and discharging station is corresponding with two fixtures 50 adjacent on index plate 21 all the time.

Above-mentioned fixture 50 can be the upper surface that is directly fixed on index plate 21, also can be to offer uniformly six recess 211 at index plate 21 upper surfaces, the degree of depth of recess 211 is more than or equal to the thickness of fixture 50, fixture 50 is embedded in recess 211, its upper surface is lower than the upper surface of index plate 21 or concordant with the upper surface of index plate 21, so, just can avoid index plate 21 when driving fixture 50 to rotate, fixture 50 and miscellaneous part collision.In addition, fixture 50 can be to utilize the screw 503 that is positioned at its two ends to be fixed on the diapire of recess 211, realizes removably connecting of fixture 50 and index plate 21, certainly, fixture 50 can be also that the mode and the index plate 21 that by other, removably connect are fixing, for example snapping.On fixture 50, offer a groove 501, this groove 501 is inner for placing and fixing light emitting diode module, and groove 501 can be arranged to different shapes, for mating difform light emitting diode module.On fixture 50, offer a through hole 502, the bottom surface by fixture 50 of this through hole 502 is through to the upper surface of fixture 50, six above-mentioned ejector beams 51 are corresponding one by one with fixture 50, and through hole 502 inside of the cross-under of ejector beam 51 activities on the fixture corresponding with it 50, when ejector beam 51 moves upward with respect to fixture 50 in through hole 502 inside, its top ends can penetrate in groove 501, it is the diapire that its top ends can protrude from groove 501, so, the light emitting diode module that is positioned at groove 501 can be ejected from fixture 50.In order to realize the reset of ejector beam 51 after liftout completes, in through hole 502 inside, be provided with a retracing spring 52 that is socketed in ejector beam 51 outsides, this retracing spring 52 is limited between the defining flange and the upper end of through hole 502 of ejector beam 51 tops settings, the bottom of through hole 502 is fixed with one for withstanding the stop collar 53 of the defining flange on ejector beam 51, under normal conditions, retracing spring 52 is pressed at top ejector beam 51 downwards, the defining flange of ejector beam 51 is just in time compressed with stop collar 53, now, the diapire of the upper end of ejector beam 51 and groove 501 is concordant or a little less than the diapire of groove 501, when upwards promoting ejector beam 51, retracing spring 52 is compressed, ejector beam 51 upper ends penetrate groove 501 light emitting diode module that is arranged in groove 501 are ejected, after completing liftout action, discharge external force, the elastic stress of retracing spring 52 is shifted ejector beam 51 onto original state.In the utility model, employing arranges a liftout projection 12 at the liftout station of worktable 11 and upwards promotes to realize liftout by turning to the ejector beam on fixture 50 51 on discharging station, for fear of collision, the side that these liftout projection 12 upper surfaces are relative with index plate 21 rotation directions is arranged to inclined-plane, the postpone rotation direction of index plate 21 of the height on this inclined-plane increases gradually, when index plate 21 drives fixture 50 to turn to discharging station, the side contacts that ejector beam 51 on this fixture 50 is first lower with bevel altitude, can effectively avoid collision, also can make ejector beam 51 progressively increase simultaneously, reduce the impulsive force to fixture 50.Certainly, also can utilize alternate manner to promote to move on ejector beam 51, for example, can be at a cylinder of frame 10 inner installations, the free end of this cylinder also passes worktable 11 upward and is positioned at the discharging station of worktable 11, and this cylinder is controlled by controller, when index plate 21 drives fixtures 50 to turn to discharging station, controller is controlled and is opened, and upwards ejector beam 51 is pressed on top; The mode that can make ejector beam 51 move on discharging station is a lot, does not here enumerate.

Detection station place at worktable 11 is provided with a fixed mount 40, this fixed mount 40 is fixed on vertical beam top towards the crossbeam of the central shaft extension of index plate 21 by a vertical beam and, crossbeam is fixed with a fixed head 41 near one end of the central shaft of index plate 21, the shooting direction that is fixed with a camera lens on this fixed head 41 camera 71 down, and end of probe spectrum probe 72 down, camera 71 and spectrum probe 72 be positioned at fixture 50 rotational trajectories directly over, so that gather the optical imagery while being installed on the optical performance parameter of the light emitting diode module on fixture 50 and duty.Being arranged on worktable 11 and being positioned at the top of index plate 21 of light shield 60 activities, and this light shield 60 is positioned at the below of camera 71 and spectrum probe 72, the lower openings of light shield 60, driven unit can drive light shield 60 to move downward, light shield 60 is covered and be positioned at the light emitting diode module that detects station, on the roof of light shield 60, offer a through hole 62, the camera lens of camera 71 penetrates and is positioned at light shield 60 bosom positions from through hole 62, spectrum probe 72 is also to penetrate from the roof of light shield 60, and its end of probe is positioned at light shield 60 inner side.Light shield 60 inside are also provided with the beam-splitter 61 of a level, in the middle of this beam-splitter 61, opening are set, and that is to say, ringwise, the light that the opening in the middle of it is convenient to light emitting diode module is mapped in the camera lens of camera 71 this beam-splitter 61.72 tops that are positioned at beam-splitter 61 of spectrum probe, the ejaculation light of light emitting diode module is after beam-splitter 61 is disperseed uniformly, and its optical performance parameter is obtained by spectrum probe 72, and beam-splitter 61 can adopt teflon to make.

In light shield 60 inside, two conduction thimbles 80 are also installed, and these two conduct electricity thimbles 80 for being connected with the connection terminal in light emitting diode module, thereby light emitting diode module are connected in external power source, when detecting, for providing power supply, light emitting diode module make it in running order.When detecting, two conduction thimbles 80 are along with light shield 60 moves downward, and when light shield 60 just in time covers the light emitting diode module being positioned on detection station, two conduction thimbles 80 just in time contact conducting with the connection terminal in light emitting diode module.Light shield 60 inside are provided with two fixed covers 81, being connected in fixed cover 81 of conduction thimble 80 activities, and between conduction thimble 80 and fixed cover 81, be provided with a back-moving spring 82, this back-moving spring 82 is for providing one by conduction thimble 80 elastic stress that press on top downwards; At conduction thimble 80, move down while contacting conducting with the connection terminal of light emitting diode module, back-moving spring 82 plays buffer action, the thimble 80 that can prevent from conducting electricity is damaged, meanwhile, the elastic stress of back-moving spring 82 can make to conduct electricity thimble 80 can with the contact terminal good contact of light emitting diode module.

Driven unit is used for driving light shield 60 and two conduction thimbles 80 to move up and down, when needs detect, driven unit drives light shield 60 and conduction thimble 80 to move down, after detection completes, driven unit drives light shield 60 to move on to the position separated with index plate 21 with on conduction thimble 80, index plate 21 can be rotated, after index plate 21 rotates 60 °, then carry out the detection of next light emitting diode module.Driven unit comprises and is positioned at frame 10 inside and body partial fixing at the drive motor 31 of worktable 11 lower surfaces, synchronously be connected in the rotating shaft of drive motor 31 and the drive lead screw 32 extending along short transverse, coupling be socketed in the feed screw nut 33 on drive lead screw 32, on this feed screw nut 33, be fixed with a plate 34, worktable 11 is fixed with an erecting frame 35, the both sides of erecting frame 35 are respectively arranged with a guide pole 36 extending along short transverse, the both sides of web joint 34 are fixed with two sliding sleeves 37, what this two sliding sleeve 37 slided respectively is socketed on two guide poles 36, the external stability of light shield 60 has an adapter sleeve 63, this adapter sleeve 63 is fixedly connected with web joint 34, start drive motor 31, can drive adapter sleeve 63 to move up and down, thereby light shield 60 can be moved up and down.Driven unit can also be other mechanisms that can drive light shield 60 to move up and down, for example, can adopt linear electric motors.For the ease of adjusting light shield 60 in index plate 21 position radially, above-mentioned web joint 34 and adapter sleeve 63 utilize the dismountable connection of bolt, and on web joint 34, be provided with a slotted hole radially extending along index plate 21, certainly, in light shield 60 positions adjustable in the situation that, also need the position of camera 71 and spectrum probe 72 along with light shield 60 is adjustable, can be connected on fixed mount 40 fixed head 41 is dismountable, and the position of fixed head 41 can be adjusted along the crossbeam bearing of trend of fixed mount 40.

Controller of the present utility model is mainly used in controlling servomotor 22, drive motor 31, conduction thimble 80, camera 71 is all connected with controller with spectrum probe 72, controller is controlled servomotor 22 and is driven index plate 21 rotation intermittently, and rotate 60 ° at every turn, when the fixture 50 that light emitting diode module is housed is driven to light shield 60 belows (detecting station) by index plate 21, controller is controlled drive motor 31 and is moved down, light emitting diode module is detected, after detection completes, controller is controlled servomotor 22 and is driven index plate 21 to rotate 60 °, light emitting diode module is after testing ejected by ejector beam 51 after being sent to discharging station, when concrete operation, only need operating personnel that light emitting diode module is housed on fixture 50, it can utilize and be positioned at the foot-switch 13 that frame 10 bottoms are connected with controller and control.

In of the present utility model, can need according to concrete detection, the fixture 50 of varying number is installed on index plate 21.

In minute optical detection device of above-described light emitting diode module, fixture 50 is dismountable to be arranged on index plate 21, when needs detect difform light emitting diode module, the fixture 50 of replaceable and light emitting diode module form fit, thereby the light splitting that can utilize a machine to be applicable to different light emitting diode module detects, and it has higher automaticity, can reduce operating personnel's labour intensity.Light emitting diode module when camera 71 can be used for taking duty, obtain the optical imagery of light emitting diode module, by Computer Analysis, whether the LED luminescence unit that can judge light emitting diode module inside there is the phenomenon of damage, so that defect ware is picked out, guarantee the product quality of light emitting diode module.

To one skilled in the art, can make other various corresponding changes and deformation according to technical scheme described above and design, and within these all changes and deformation all should belong to the protection domain of the utility model claim.

Claims (8)

1. minute optical detection device of light emitting diode module, is characterized in that, comprise,

Worktable, is provided with a detection station and discharging station on it;

Be installed on the cyclic conveyor structure on worktable, this cyclic conveyor structure is for being delivered to discharging station by the fixture of putting light emitting diode module by detecting station;

The movable ejector beam that is installed on fixture and the light emitting diode module on fixture is ejected when being positioned at discharging station at fixture;

Be positioned on the discharging station of worktable and for being positioned at the ejector beam top-pressure mechanism that upwards press on top of discharging station;

Be arranged on the fixed mount on worktable, on this fixed mount, be fixed with a camera and spectrum probe;

Be movably arranged on worktable and be positioned at the light shield that detects station top, the bottom of this light shield has opening, and the taking lens of camera and spectrum probe are arranged at light shield inside;

Two are respectively used to dock connection terminal in light emitting diode module in order to light emitting diode module is communicated in to the conduction thimble of external power source;

For the driven unit that drives light shield and conduction thimble to move up and down with respect to cyclic conveyor structure along short transverse;

For the controller of controlled circulation conveying mechanism and driven unit, spectrum probe, camera are connected with controller.

2. minute optical detection device of light emitting diode module as claimed in claim 1, it is characterized in that, cyclic conveyor structure comprises rotating index plate and the servomotor of body partial fixing on worktable and for driving index plate to rotate being arranged on worktable, and the control end of this servomotor is connected with controller.

3. minute optical detection device of light emitting diode module as claimed in claim 2, is characterized in that, the upper surface of index plate is dismountable is provided with a plurality of fixtures, and the plurality of fixture is around the pivot center circumference array of index plate; Fixture is positioned at the recess that index plate upper surface is offered, and the upper surface of fixture and the upper surface of index plate is concordant or lower than the upper surface of index plate, the upper surface of fixture offers one for putting the groove of light emitting diode module.

4. minute optical detection device of light emitting diode module as claimed in claim 3, it is characterized in that, ejector beam along short transverse extend and movable cross-under on fixture, between ejector beam and fixture, be provided with a retracing spring, this retracing spring is for providing an elastic stress that ejector beam is pushed up to pressure downwards, top-pressure mechanism is one to be arranged on the liftout projection on worktable discharging station, the height that on this liftout projection, a side relative with index plate rotation direction is provided with a ，Gai inclined-plane, inclined-plane is postponed the rotation direction of index plate gradually to increasing gradually.

5. minute optical detection device of light emitting diode module as claimed in claim 1, it is characterized in that, light shield inside is provided with a beam-splitter, the end of probe of spectrum probe be positioned at beam-splitter directly over, on beam-splitter, be provided with a light hole being positioned under the camera lens of camera.

6. minute optical detection device of light emitting diode module as claimed in claim 1, it is characterized in that, light shield inside is provided with two fixed covers, being connected in fixed cover of conduction thimble activity, and between conduction thimble and fixed cover, be provided with a back-moving spring, this back-moving spring is for providing one conduction thimble is pushed up to the elastic stress of pressure downwards.

7. minute optical detection device of light emitting diode module as claimed in claim 1, is characterized in that, driven unit comprises that drive motor, the light shield of body partial fixing on worktable is connected with the mode of screw rod transmission and the rotating shaft of drive motor.

8. minute optical detection device of light emitting diode module as claimed in claim 1, is characterized in that, offers for the through hole for camera and spectrum probe activity cross-under on the roof of light shield.

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