CN205308806U - Electronic component's integral type suction nozzle and suction nozzle feeding conveyor thereof - Google Patents

Abstract

The utility model provides an electronic component's integral type suction nozzle and suction nozzle feeding conveyor thereof, wherein, the integral type suction nozzle is including being used for fixing the pedestal on the carousel, be equipped with the be separated by first gas passage that accesss to the carousel of predetermined distance of a plurality of on the pedestal, each the pedestal department that one end corresponded that keeps away from the carousel of first gas passage is equipped with draw -in groove, every first gas passage and with the draw -in groove that first gas passage corresponds constitutes the suction nozzle unit jointly. Therefore, the utility model has the advantages of simple structure, that the cost is lower, weight is lighter, hardness is higher, wear -resisting, life.

Description

The integral type suction nozzle of a kind of electronic component and suction nozzle feed conveying device thereof

Technical field

This utility model relates to electronic component subpackage field, the integral type suction nozzle of especially a kind of electronic component and suction nozzle feed conveying device thereof.

Background technology

Fast development along with electronic technology, and the enhancing day by day of the idea of the energy-conserving and environment-protective of people, LED light source is increasingly subject to the favor of consumers in general, therefore uses also more and more extensive, the thing followed is the sharp increase of LED market demand, and the yield of each manufacturing enterprise is also in quick growth; But due to the finiteness of LED encapsulation technology, the photoelectric parameter of the LED produced temporarily also cannot be made to keep consistent, therefore by photoelectric parameter, LED need to be sorted at packaging process back segment, make up to the requirement of client. LED light splitting machine is exactly a kind of light-dividing device carrying out LED according to the photoelectric parameter set classifying, and LED can be carried out classifying and collecting by identical classification by it according to the photoelectric parameter set, and is that LED encapsulates the indispensable a kind of equipment of back segment.

The structure of LED light splitting machine mainly includes feed conveying device, test structure, distributing structure and bin structure, wherein, described feed conveying device includes vibrating disk feeding structure, feeding structure and positioning transporting device, electronic component is delivered to the track front end of vibrating disk feeding structure by described vibrating disk feeding structure, described feeding structure picks up electronic component, and it is transferred on described positioning transporting device, sort after structured testing after tested, then fall in corresponding hopper; In prior art, the electronic component of the track front end of described vibrating disk feeding structure is transferred on described positioning transporting device, being by described feeding structure, the electronic component of track front end is moved on positioning transporting device, after detecting puts in place, motor rotates and is transported to what each operating position realized. This positioning transporting device 100 of the prior art, it contains several independent suction nozzle 101(being arranged on rotating disk 102 as shown in Figure 1), it is as power 103 with motor, rotates to each working position, sorts for after the energising detection of test equipment again;And adopt the LED light splitting machine of this positioning transporting device to there is following defect; First, owing to several suction nozzles still described are to be arranged on rotating disk one by one, therefore can there is error, such as there will be the situation that nozzle height differs or suction nozzle installation is not in place, even there will be suction nozzle and unstable phenomenon is installed, therefore in the process of feeding, it is easy for occurring that tested electronic component can not be held by suction nozzle securely, even can fall down from suction nozzle, cause feeding unstable, thus causing that feeding speed is slow, cause the efficiency of impact sorting; Second, existing this nozzle structure is complicated, and cost is high, and the speed carrying out sorting is also slower, it is impossible to well adapt to present electronic component high speed subpackage requirement.

Utility model content

In order to overcome the problems referred to above, this utility model to society provides that a kind of structure is simpler, lower in cost, feeding is more stable, the integral type suction nozzle of electronic component that is conducive to improving the efficiency of separation

This utility model also provides for a kind of carrying the suction nozzle feed conveying device that material is more stable, be conducive to improving the efficiency of separation.

The technical solution of the utility model is: provide the integral type suction nozzle of a kind of electronic component, including for being fixed on the pedestal on rotating disk, described pedestal is provided with first gas passage leading to rotating disk of several predetermined distances, each described first gas passage be provided with draw-in groove away from the pedestal place corresponding to one end of rotating disk, each described first gas passage and the draw-in groove corresponding with described first gas passage collectively form suction nozzle unit.

As to improvement of the present utility model, described pedestal is configured to the bottom surface radius of circle hollow cylinder less than or equal to the radius of rotating disk, and described first gas passage is arranged along the short transverse of described hollow cylinder.

As to improvement of the present utility model, each described draw-in groove is provided with the insulating barrier for preventing detected electronic component switched on.

As to improvement of the present utility model, described pedestal is to adopt wear-resisting material to make.

As to improvement of the present utility model, described pedestal is to adopt metal material to make.

As to improvement of the present utility model, several described suction nozzle unit are the mode molding by die casting.

Another technical scheme of the present utility model is: providing a kind of suction nozzle feed conveying device, this suction nozzle feed conveying device contains the integral type suction nozzle of above-mentioned any electronic component.

This utility model is owing to including the pedestal for being fixed on rotating disk, described pedestal is provided with first gas passage leading to rotating disk of several predetermined distances, each described first gas passage be provided with draw-in groove away from the pedestal place corresponding to one end of rotating disk, each described first gas passage and the draw-in groove corresponding with described first gas passage collectively form suction nozzle unit. this utility model is owing to being set the first gas passage and the draw-in groove corresponding with described first gas passage on described pedestal, therefore this utility model is the suction nozzle of integral type, structure is very simple, and when installing, only need to described pedestal be arranged on rotating disk, convenient and swift, without indivedual unstable phenomenons of described suction nozzle unit occur, thus can reduce the feeding instability even stopping to cause because nozzle structure design is improper, the phenomenon that separation velocity is slow, in terms of existing technologies, it is simpler that this utility model has structure, easier for installation, and feeding speed is faster and more stable advantage.

Accompanying drawing explanation

Fig. 1 is the perspective view of suction nozzle feed conveying device of the prior art.

Fig. 2 is a kind of structural representation using state of the integral type suction nozzle of electronic component in this utility model.

Fig. 3 is the part junction structure schematic diagram of Fig. 2.

Fig. 4 is longitudinal sectional structure schematic diagram of Fig. 2

Fig. 5 is the A place structure for amplifying schematic diagram in Fig. 4.

Detailed description of the invention

In description of the present utility model, it will be appreciated that, in term, the orientation of the instruction such as " " center ", " on ", D score, "front", "rear", "left", "right" or position relationship be based on orientation shown in the drawings or position relationship; be for only for ease of description this utility model and simplifying and describe; rather than instruction or imply indication device or element must have specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to restriction of the present utility model. Additionally, term " first ", " second " are only for descriptive purposes, and it is not intended that indicate or hint relative importance.

In description of the present utility model, it is necessary to explanation, unless otherwise clearly defined and limited, term " installation ", " connection ", " being connected " should be interpreted broadly, for instance, it is possible to it is fixing connection, it is also possible to be that dismounting connects, or connect integratedly; Can be mechanically connected, it is also possible to be electrical connection; Can be joined directly together, it is also possible to be indirectly connected to by intermediary, it is possible to be the connection of two element internals. For the ordinary skill in the art, it is possible to concrete condition understands above-mentioned term at concrete meaning of the present utility model. Additionally, in description of the present utility model, except as otherwise noted, " multiple ", " some " are meant that two or more.

Refer to Fig. 2 to Fig. 3, what Fig. 2 to Fig. 3 disclosed is a kind of embodiment of the integral type suction nozzle of a kind of electronic component, a kind of integral type suction nozzle of electronic component, including for being fixed on the pedestal 10 on rotating disk 3, described pedestal 10 is provided with first gas passage 13 leading to rotating disk 3 of several predetermined distances, each described first gas passage 13 be provided with draw-in groove 111 away from pedestal 10 place corresponding to one end 131 of rotating disk 3, each described first gas passage 13 and the draw-in groove 111 corresponding with described first gas passage 13 collectively form suction nozzle unit 11. in the present embodiment, described pedestal 10 is configured to the bottom surface radius of circle hollow cylinder equal to the radius of rotating disk 3, certainly, described pedestal 10 can also be arranged to the bottom surface radius of circle hollow cylinder less than the radius of rotating disk 3, and described first gas passage 13 is arranged along the short transverse of described hollow cylinder. in this utility model, owing to being arrange several first gas passages 13 and the draw-in groove 111 corresponding with described first gas passage 13 on described pedestal 10, namely integral type, therefore several first gas passages 13 and the draw-in groove 111 corresponding with described first gas passage 13 are co-located on pedestal 10, therefore the integral type suction nozzle 1 of electronic component is formed, the integral type suction nozzle 1 of the electronic component in this utility model is when mounted, have only to directly be fixed on rotating disk 3 by pedestal 10 and namely can realize all of suction nozzle unit 11 on described pedestal 10 be positioned on described rotating disk 3, install very convenient, and it is quick, spended time is less, in this utility model, first gas passage 13 and the draw-in groove 111 corresponding with described first gas passage 13 can be set in advance on described pedestal 10, then pedestal 10 is fixed on rotating disk 3, after pedestal 10 can also being fixed on described rotating disk 3, then on pedestal 10, process the first gas passage 13 and the draw-in groove 111 corresponding with described first gas passage 13,In this utility model, described pedestal 10 is to adopt wear-resisting material to make, and so described pedestal 10 is just more wear-resisting, and longer service life, in the present embodiment, it is preferable that described pedestal 10 is to adopt metal material to make. when described pedestal 10 is to be made by metal material, and when need to pre-set the first gas passage 13 and the draw-in groove corresponding with described first gas passage 13 on described pedestal 10, first gas passage 13 described in this utility model and the draw-in groove 111 corresponding with described first gas passage 13 can adopt the mode molding of die casting, each first gas passage 13 so formed out, and draw-in groove 111 structure corresponding with described first gas passage 13 is well-balanced, height is consistent, error is little, more do not have the phenomenon that suction nozzle unit 11 is insecure or comes off, therefore stability is higher, and the mode molding of die casting can be produced in batches, yield is higher. in this utility model, so that separating effect is better and more accurate, each described draw-in groove 111 is provided with the insulating barrier 8 for preventing detected electronic component switched on, this utility model is on described draw-in groove 111, ceramic layer is set, certainly, in addition to this it is possible to be other insulant, can be through pasting fixing mode, it is also possible to be sprays insulating material on described draw-in groove 111.

This utility model also provides for a kind of suction nozzle feed conveying device (such as Fig. 2, shown in Fig. 4 and Fig. 5), including rotating disk 3, the integral type suction nozzle 1 of the electronic component being arranged on described rotating disk 3, it is arranged on the pipe joint 2 for being connected of rotating disk 3 central authorities with vacuum source (not shown in FIG.), and for providing the power set 4 of power to described rotating disk 3, described power set 4 are connected with rotating disk 3 by connector 5, described power set 4 are fixed in the cylindrical shape containing cavity collectively formed by installing plate 40 and supporting seat 41, the integral type suction nozzle 1 of described electronic component includes the pedestal 10 for being fixed on rotating disk 3, described pedestal 10 is provided with first gas passage 13 leading to rotating disk 3 of several predetermined distances, each described first gas passage 13 be provided with draw-in groove 111 away from pedestal 10 place corresponding to one end 131 of rotating disk 3, each described first gas passage 13 and the draw-in groove 111 corresponding with described first gas passage 13 collectively form suction nozzle unit 11. in the present embodiment, it is preferable that described pedestal 10 is configured to the bottom surface radius of circle hollow cylinder less than or equal to the radius of rotating disk 3, and described first gas passage 13 is arranged along the short transverse of described hollow cylinder. described rotating disk 3 is provided with equal with described first gas passage 13 quantity and corresponding the second gas passage 31 communicated, described second gas passage 31 communicates with pipe joint 2, and described pipe joint the 2, second gas passage 31 and the first gas passage 13 collectively form vacuum source and produce the adsorbing gas passage to tested electronic component.

Below for Fig. 5, the specific works process of the suction nozzle feed conveying device in this utility model is described in detail:

In this utility model, during LED light splitting machine sub-material, when feeding structure (not shown in FIG.) picks up electronic component, and it is transferred on draw-in groove 111, tested electronic component (not shown in FIG.) is placed on described draw-in groove 111, now, under the adsorption of vacuum source, tested electronic component is then inhaled firmly on described draw-in groove 111, described power set 4 high speed rotating, tested electronic component is then accurately transported on corresponding station, each draw-in groove 111 structure on the integral type suction nozzle 1 of described electronic component is consistent, highly consistent, and more it is stably fixed to described rotating disk 3, so when telling rotation, tested electronic component is also just unlikely to drop, therefore, it is fast that this utility model has separation velocity, the advantage that the efficiency of separation is high and accuracy is high.

Claims (8)

1. the integral type suction nozzle of an electronic component, it is characterized in that, including for being fixed on the pedestal (10) on rotating disk (3), described pedestal (10) is provided with first gas passage (13) leading to rotating disk (3) of several predetermined distances, pedestal (10) place corresponding to one end away from rotating disk (3) (131) of each described first gas passage (13) is provided with draw-in groove (111), and each described first gas passage (13) and the draw-in groove (111) corresponding with described first gas passage (13) collectively form suction nozzle unit (11).

2. the integral type suction nozzle of electronic component according to claim 1, it is characterized in that: described pedestal (10) is configured to the bottom surface radius of circle hollow cylinder less than or equal to the radius of rotating disk (3), and described first gas passage (13) is arranged along the short transverse of described hollow cylinder.

3. the integral type suction nozzle of electronic component according to claim 1, it is characterised in that: each described draw-in groove (111) is provided with the insulating barrier (8) for preventing detected electronic component switched on.

4. the integral type suction nozzle of electronic component according to claim 2, it is characterised in that: each described draw-in groove (111) is provided with the insulating barrier (8) for preventing detected electronic component switched on.

5. the integral type suction nozzle of the electronic component according to claim 1,2,3 or 4, it is characterised in that: described pedestal (10) is to adopt wear-resisting material to make.

6. the integral type suction nozzle of the electronic component according to claim 1,2,3 or 4, it is characterised in that: described pedestal (10) is to adopt metal material to make.

7. the integral type suction nozzle of electronic component according to claim 6, it is characterised in that: several described suction nozzle unit (11) are the mode molding by die casting.

8. a suction nozzle feed conveying device, it is characterised in that this suction nozzle feed conveying device contains the integral type suction nozzle of any electronic component in the claims 1 to claim 7.