CN203975287U - The electronic component of improvement is surveyed chartered plane - Google Patents

Abstract

The utility model is that a kind of electronic component of improvement is surveyed chartered plane, this survey chartered plane includes one first feed unit, multiplely be ring-like arrangement and turn round the negative pressure suction nozzle of advancing, multiple detecting test stations, one printing element, one second feed unit, an and packaging unit, wherein: each negative pressure suction nozzle top is coaxially arranged with a passive fluted disc, in negative pressure suction nozzle course, being respectively equipped with can be to first of passive fluted disc interference, second clutch, described first, second clutch is during towards passive fluted disc closing, can be by passive fluted disc by negative pressure suction nozzle and electronic component Rotate 180 degree, with the direction of correcting electronic element both positive and negative polarity.In addition, multiple negative pressure suction nozzles are in the same plane, detect with horizontal rotation move mode, and in release prior art, negative pressure suction nozzle needs the time of upper and lower displacement, can accelerate detection, printing, package handling, effectively promotes production capacity.

Description

The electronic component of improvement is surveyed chartered plane

Technical field

The utility model is that a kind of electronic component that electronic component can be detected, print, pack is surveyed chartered plane.

Background technology

Electronic component more does less now, such as glass tube diode, cylindric resistance (MELF) etc., in order to maintain product quality, before dispatching from the factory, electronic component can test superseded defective products, and also will be through printing dimensions, packaging supervisor after test, therefore dealer adopts the survey chartered plane of automation to complete detection, printing and the packaging processing procedure of a large amount of electronic components, to guarantee that quality conforms with customer demand, reduces the manufacturing cost of electronic component simultaneously.

Existing survey chartered plane has a stepping rotating disk, stepping rotating disk is provided with the negative pressure suction nozzle of multiple merry-go-round arrangements, by the drive of stepping rotating disk, can allow the rounded revolution of each negative pressure suction nozzle advance, each negative pressure suction nozzle can utilize respectively negative-pressure adsorption electronic component to move simultaneously, to complete one by one the work of detection, printing, packaging.

According to job procedure, the above-mentioned rotary path at negative pressure suction nozzle is divided into leading portion and prints and back segment packaging; Wherein, be sequentially provided with the first feed unit, multiple the first detecting test station and a printing element on leading portion printing path, object is sequentially detecting after the electrical specification of each electronic component, prints respectively in each electronic component appearance; On the back segment packaging path of negative pressure suction nozzle, be sequentially provided with the second feed unit, multiple the second detecting test station and a packaging unit, make each electronic component accept, after last detection, to complete automatic packaging.

In said structure, surveying the chartered plane work that first must complete is to make all electronic component cathode and anode directions after testing consistent, so could continue other electrical specification of detection, this program be generally referred to as discharged to.But, when a large amount of not electronic components are after testing during one by one from first, second feed unit charging, in practice, also cannot arrange according to the direction of both positive and negative polarity, therefore in the time that the first detecting test station detects that the cathode and anode directions of electronic component is contrary, negative pressure suction nozzle is except can stick electronic components revolution advances, also must controlled active rotation 180 spend, allow the electronic component cathode and anode directions on negative pressure suction nozzle can adjust to consistent with polar orientation default on detecting test station.Thus, on each negative pressure suction nozzle, just must be driven and turn to by the actuating device such as such as motor, cause complex structural designs, assembly cost and maintenance cost all significantly increase.

Moreover, negative pressure suction nozzle is to adopt the circular turned mode of advancing to operate as previously mentioned, need to allow electronic component when through each detecting test station simultaneously, can accept the detection of each detecting test station, therefore negative pressure suction nozzle can turn round movement except wanting, and beyond Rotate 180 degree, also must be able to move back and forth up and down, make each electronic component accept the detection of each detecting test station.For example, negative pressure suction nozzle laterally moves to the top of the first feed unit, then move down after the electronic component in absorption the first feed unit, reset again moves up, and cross travel is to the top of each detecting test station, again moves down and electronic component is placed in to corresponding detecting test station tests respectively at each detecting test station; To be tested complete, the then horizontal displacement that once more moves up, so, after repeatedly carrying out cross travel and moving back and forth up and down, can complete detection.

Above-mentioned negative pressure suction nozzle moves back and forth up and down design, adds 180 degree Rotation Design, not only makes complex structural designs, cost improve, and the more important thing is and also can have a strong impact on production capacity.For example: conventionally survey chartered plane under the running of a whole rotary path, the electronic component of testing approximately 20,000 per hour, but having the time over half is to spend in during negative pressure suction nozzle moves back and forth up and down, for surveying chartered plane, when moving up and down, negative pressure suction nozzle do not have detection effect, if can omit the time that negative pressure suction nozzle moves back and forth up and down, just can greatly promote detection efficiency, its production capacity is doubled, reduce production costs.

In addition, existing printing element comprise one be positioned under negative pressure suction nozzle to accept the printing delivery track of electronic component, in described printing delivery track, be provided with belt conveyor, allow the electronic component that falls to printing delivery track can be transported to stamp pad printing, if printing delivery track can be apt to markon and be added that by the magnetic conductive metal characteristic of electronic component end magnetic attraction positions and carries, just can accelerate delivery speed, promote production capacity.

Same, the packaging unit of existing survey chartered plane also comprises a packaging delivery track, described packaging delivery track top is provided with packing timber, packing timber has multiple grooves of sequentially arranging, the electronic component that each groove departs from from negative pressure suction nozzle in order to carrying, but electronic component must precisely fall into groove from negative pressure suction nozzle, just produce the problem of location, if packaging delivery track can utilize the magnetic conductive metal characteristic of electronic component end to add that magnetic attraction positions equally, just can accelerate package speed, reduce production time.

Because the various disappearances of existing survey chartered plane, contriver of the present utility model surveys chartered plane for electronic component and improves, to solve the time-histories that existing negative pressure suction nozzle needs overspending to move up and down, the steering structure complexity of negative pressure suction nozzle, and how to utilize the metallic character of electronic component end to carry out discharged to problems such as, location.

Utility model content

The purpose of this utility model is to provide a kind of electronic component of improvement to survey chartered plane, in order to electronic component is detected, to be printed and to pack, this survey chartered plane is provided with power-transfer clutch on the path of multiple negative pressure suction nozzle courses, allow negative pressure suction nozzle the both positive and negative polarity of electronic component can be redirect in mobile unanimously with polar orientation default on detecting test station advancing, accelerate detection speed and also reduce assembly cost and maintenance cost.

For reaching above-mentioned purpose, the utility model provides a kind of electronic component of improvement to survey chartered plane, comprise that one supplies many electronic components with single the first feed unit of sequentially arranging towards board continuous feed, multiplely be the negative pressure suction nozzle that ring-like spread configuration is advanced to draw respectively electronic component on a stepping rotating disk, multiplely be arranged on the detecting test station for detection of electronic component on multiple negative pressure suction nozzle rotary paths, one is arranged on the printing element that print electronic component in multiple negative pressure suction nozzle rotary paths stage casing, one is arranged on second feed unit in printing element downstream, an and packaging unit that is arranged on multiple negative pressure suction nozzle rotary path ends, wherein:

Each negative pressure suction nozzle top is coaxially arranged with a passive fluted disc, stepping rotating disk between the first feed unit and printing element, and between the second feed unit and packaging unit, be respectively equipped with one can be towards passive fluted disc displacement closing or away from first clutch and the second clutch of passive fluted disc; This first clutch and second clutch are connivent in passive fluted disc and described stepping rotating disk continues to advance, can be because interfering passive fluted disc to be advanced to make the passive tooth turnback of spiraling, drive the electronic component rotation on negative pressure suction nozzle, the direction of the both positive and negative polarity of correcting electronic element on stepping rotating disk simultaneously.

Rely on above-mentioned structure, each negative pressure suction nozzle continue to advance and the passive fluted disc in top in the situation that being interfered by power-transfer clutch, can be on stepping rotating disk Rotate 180 degree separately, allow the both positive and negative polarity of electronic component redirect to consistent with polar orientation default on detecting test station, solve the disappearance of existing steering structure complexity.

Below further illustrate the embodiment of each element:

When enforcement, this power-transfer clutch can be a tooth bar that can be meshed with passive fluted disc, or multiple equidistant arrangement and the cylinder that can be meshed with passive fluted disc.

When enforcement, the bottom of each negative pressure suction nozzle is in the same plane, and moved by stepping driven by rotary disc horizontal rotation; Each detecting test station is provided with a guiding channel on multiple negative pressure suction nozzle travel paths, is provided with two elastic conducting strips of relatively arranging and having circular arc chamfering in guiding channel; Aforementioned electronic element is moved in guiding channel by negative pressure suction nozzle absorption stepping, and the guiding that is subject to circular arc chamfering moves between two elastic conducting strips and test, multiple negative pressure suction nozzles need not be moved back and forth up and down and just can allow electronic component detect in detecting test station.

When enforcement, multiple detecting test stations at least comprise a first both positive and negative polarity detecting test station being arranged between the first feed unit and printing element, and the second both positive and negative polarity detecting test station arranging between the second feed unit and packaging unit, aforementioned first, second power-transfer clutch is separately positioned on the downstream of first, second both positive and negative polarity detecting test station; After this electronic component completes both positive and negative polarity and detects, just can by after first, second power-transfer clutch closing on stepping rotating disk Rotate 180 degree separately, allow the both positive and negative polarity of electronic component redirect to consistent with polar orientation default on detecting test station.

When enforcement, electronic component is surveyed chartered plane and in the course of multiple negative pressure suction nozzles, is further provided with first, second collecting tank that can collect flaw electronic component, and described first, second collecting tank is arranged on the downstream of first, second both positive and negative polarity detecting test station.

When enforcement, printing element comprises a stamp pad that is positioned at the magnetic-type delivery track, that is arranged on holding groove downstream to accept the holding groove, of electronic component under negative pressure suction nozzle and is arranged on magnetic-type delivery track end; Wherein, these magnetic-type delivery track both sides have magnetic, and its magnetic attraction is towards downstream end crescendo, the electronic component entering in magnetic-type delivery track by holding groove can be subject to the magnetic attraction guiding of downstream end crescendo and automatically move towards stamp pad and advance, omit in existing packaging delivery track belt is set, and utilize the metallic character of electronic component end to carry out discharged to accelerating delivery speed.

When enforcement, outside, track both sides is respectively equipped with horizontal magnetite, and the distance between two magnetites, towards downstream convergent, makes the magnetic attraction of magnetic-type delivery track both sides towards downstream end crescendo.

When enforcement, magnetic-type delivery track is connected before and after being provided with two groups mutually, is further provided with the auxiliary wheel that an auxiliary electron element moves between two groups of magnetic-type delivery tracks, and described auxiliary wheel outline is provided with the recess that is ring-like arrangement and energy electronic component location.

When enforcement, the downstream of printing element is further provided with a magnetic chain that electronic component can be delivered into baking box, this magnetic chain lateral margin has magnetic and a wherein end of energy stick electronic components, makes electronic component be transverse horizontal shape and enters baking box to dry ink; And the mobile route of this magnetic chain upstream extremity outside is provided with one and can directly proofreaies and correct in magnetic mode to electronic component and become the magnet that transverse horizontal shape is advanced.

When enforcement, printing element further comprises that one is arranged on baking box downstream in order to collect the material collecting box of the rear electronic component of printing.

When enforcement, packaging unit comprises a packaging delivery track, and described packaging delivery track top arranges packing timber, and packing timber is provided with multiple grooves of sequentially arranging, and described groove is corresponding to the below of negative pressure suction nozzle, to carry the electronic component departing from from negative pressure suction nozzle; Described packaging delivery track is provided with corresponding to the below of packing timber the magnet that a groove that can attract electronic component to fall into packing timber is located.

When enforcement, the first feed unit comprise one for many electronic components with single sequentially longitudinal arrangement be arranged in the first charging track upstream and respectively each electronic component pushed to continuously by vibration mode the first vibrating disc of charging track towards the first charging track and of stepping rotating disk continuous feed, described the first charging track downstream end is provided with a first feeding groove being positioned under negative pressure suction nozzle; The second feed unit comprises one and longitudinally sequentially arranges with single the second vibrating disc that is arranged in the second charging track upstream and respectively electronic component after each printing is pushed to continuously by vibration mode the second charging track towards the second charging track and of stepping rotating disk continuous feed for the electronic component after plural number printing, and described the second charging track downstream end is provided with a second feeding groove being positioned under negative pressure suction nozzle.

Compared to prior art, the utlity model has following advantage:

Each negative pressure suction nozzle continue to advance and the passive fluted disc in top in the situation that being interfered by power-transfer clutch, can be on stepping rotating disk Rotate 180 degree separately, allow the both positive and negative polarity of electronic component redirect to consistent with polar orientation default on detecting test station, solve the disappearance of existing steering structure complexity.

2. each detecting test station is provided with two elastic conducting strips on multiple negative pressure suction nozzle travel paths, negative pressure suction nozzle is moved between two elastic conducting strips by the guiding of circular arc chamfering on two elastic conducting strips to test, multiple negative pressure suction nozzles need not be moved back and forth up and down and just can allow electronic component detect in detecting test station, greatly promote production capacity.

3. on the packaging delivery track of the magnetic-type delivery track of printing element, and packaging unit, all there is magnetic, electronic component can be carried out fast discharged to or locate by magnetic guiding, accelerate delivery speed.

Following foundation technological means of the present utility model, lists and is suitable for embodiment of the present utility model, and coordinates brief description of the drawings as rear:

Brief description of the drawings

Fig. 1: stereo appearance figure of the present utility model;

Fig. 2: the stereo appearance figure at another visual angle of the present utility model;

Fig. 3: birds-eye view of the present utility model;

Fig. 4: the stereo appearance figure of first, second feed unit of the present utility model;

Fig. 5: the stereo appearance figure of stepping rotating disk of the present utility model and negative pressure suction nozzle;

Fig. 6: negative pressure suction nozzle of the present utility model and power-transfer clutch do schematic diagram;

Fig. 7: negative pressure suction nozzle of the present utility model and detecting test station do schematic diagram;

Fig. 8: the stereo appearance figure of first, second collecting tank of the present utility model;

Fig. 9: printing element plan structure schematic diagram of the present utility model;

Figure 10: printing element side-looking structural representation of the present utility model;

Figure 11: the three-dimensional appearance schematic diagram of magnetic chain of the present utility model;

Figure 12: the stereo appearance figure of packaging unit of the present utility model.

Description of reference numerals: 10-the first feed unit; 11-the first charging track; 12-the first vibrating disc; 13-the first feeding groove; 20-stepping rotating disk; 21-negative pressure suction nozzle; The passive fluted disc of 22-; 30-detecting test station; 31-guiding channel; 32-circular arc chamfering; 33-elastic conducting strip; 34-the first both positive and negative polarity detecting test station; 35-the second both positive and negative polarity detecting test station; 36-the first collecting tank; 37-the second collecting tank; 40-printing element; 41-holding groove; The magnetic-type delivery track of 42-; 421 magnetites; 43-stamp pad; 44-material collecting box; 45-auxiliary wheel; 451 recesses; 46-baking box; 47-magnetic chain; 48-magnet; 50-the second feed unit; 51-the second charging track; 52-the second vibrating disc; 53-the second feeding groove; 60-packaging unit; 61-packs delivery track; 62-packing timber; 621 grooves; 63-magnet; 70-first clutch; 80-second clutch.

Detailed description of the invention

As shown in Fig. 1 to Fig. 3, Fig. 5, the utility model electronic component is surveyed chartered plane and is comprised one first feed unit 10, multiple the second feed unit 50 and packaging unit 60 that is arranged on the negative pressure suction nozzle 21 on a stepping rotating disk 20, multiple detecting test station 30, a printing element 40, and is arranged on printing element 40 downstreams.

See also shown in Fig. 4, described the first feed unit 10, the second feed unit 50 are sequentially arranged towards 20 continuous feeds of stepping rotating disk with single for many electronic components.This first feed unit 10 comprise one for many electronic components with single sequentially longitudinal arrangement be arranged in the first charging track 11 upstreams and respectively each electronic component pushed to continuously by vibration mode the first vibrating disc 12 of the first charging track 11 towards the first charging track 11 and of stepping rotating disk 20 continuous feeds, described the first charging track 11 downstream ends are provided with a first feeding groove 13 being positioned under negative pressure suction nozzle 21.

This second feed unit 50 comprises one and longitudinally sequentially arranges with single the second vibrating disc 52 that is arranged in the second charging track 51 upstreams and respectively electronic component after each printing is pushed to continuously by vibration mode the second charging track 51 towards the second charging track 51 and of stepping rotating disk 20 continuous feeds for the electronic component after many printings, and described the second charging track 51 downstream ends are provided with a second feeding groove 53 being positioned under negative pressure suction nozzle 21.

As shown in Fig. 3, Fig. 5, Fig. 6, multiple negative pressure suction nozzles 21 are ring-like arrangement on stepping rotating disk 20, and draw respectively the electronic component movement of advancing.Each negative pressure suction nozzle 21 top is provided with a passive fluted disc 22, stepping rotating disk 20 between the first feed unit 10 and printing element 40, and between the second feed unit 50 and packaging unit 60, be respectively equipped with one can towards passive fluted disc 22 displacement closings or away from first clutch 70, second clutch 80.

When enforcement, first clutch 70, second clutch 80 can be a tooth bar that can be meshed with passive fluted disc 22, or multiple equidistant arrangement and the cylinder that can be meshed with passive fluted disc 22, in diagram taking multiple cylinders as example.First clutch 70, second clutch 80 are connivent in passive fluted disc 22 and described stepping rotating disk 20 while continuing to advance, can interfere passive fluted disc 22 advance and make passive fluted disc 22 Rotate 180 degree, drive the electronic component rotation on negative pressure suction nozzle 21 simultaneously, allow the both positive and negative polarity of electronic component redirect to consistent with polar orientation default on detecting test station 30.

As shown in Figure 5, Figure 7, the bottom of aforementioned each negative pressure suction nozzle 21 is in the same plane, and is subject to stepping rotating disk 20 to drive horizontal rotation to move; Each detecting test station 30 is provided with a guiding channel 31 on multiple negative pressure suction nozzle 21 travel paths, is provided with two elastic conducting strips 33 of relatively arranging and having circular arc chamfering 32 in guiding channel 31; Aforementioned electronic element is adsorbed stepping by negative pressure suction nozzle 21 and moves in guiding channel 31, and the guiding that is subject to circular arc chamfering 32 moves between two elastic conducting strips 33 and test, multiple negative pressure suction nozzles 21 need not be moved back and forth up and down and just can allow electronic component detect in detecting test station 30.

As shown in Figure 3, multiple detecting test stations 30 at least comprise a first both positive and negative polarity detecting test station 34 being arranged between the first feed unit 10 and printing element 40, and the second both positive and negative polarity detecting test station 35 arranging between the second feed unit 50 and packaging unit 60, aforementioned first clutch 70, second clutch 80 are separately positioned on the downstream of the first both positive and negative polarity detecting test station 34, the second both positive and negative polarity detecting test station 35; This electronic component completes after both positive and negative polarity detection, just can pass through first clutch 70, second clutch 80 independent Rotate 180 degree on stepping rotating disk 20, allows the both positive and negative polarity of electronic component redirect to consistent with polar orientation default on detecting test station 30.

See also shown in Fig. 8, in the course of multiple negative pressure suction nozzles 21, be also provided with the first collecting tank 36, the second collecting tank 37 that can collect flaw electronic component, described the first collecting tank 36, the second collecting tank 37 are arranged on the downstream of the first both positive and negative polarity detecting test station 34, the second both positive and negative polarity detecting test station 35, if electronic component faulty materials after testing, will directly lose in the first collecting tank 36, the second collecting tank 37.

As shown in Fig. 2, Fig. 5, Fig. 9, Figure 10, described printing element 40 is arranged on multiple negative pressure suction nozzles 21 and turns round route stage casing, this printing element 40 comprises a stamp pad 43 that is positioned at the magnetic-type delivery track 42, that is arranged on holding groove 41 downstreams to accept the holding groove 41, of electronic component under negative pressure suction nozzle 21 and is arranged on magnetic-type delivery track 42 ends, and a material collecting box 44 of collecting electronic component after printing.

When enforcement, outside, track both sides is respectively equipped with horizontal magnetite 421, distance between two magnetites 421 is towards downstream convergent, make the magnetic attraction of magnetic-type delivery track 42 both sides towards downstream end crescendo, the electronic component entering in magnetic-type delivery track 42 by holding groove 41 can be subject to the magnetic attraction guiding of downstream end crescendo and automatically move towards stamp pad 43 and advance, utilize the metallic character of electronic component end to carry out discharged to accelerating delivery speed; Certainly, the distance between surveying in delivery track 42 both sides being designed to towards downstream end convergent, is also one of feasible embodiment.

Moreover, magnetic-type delivery track 42 can be to be connected mutually before and after two groups, between two groups of magnetic-type delivery tracks 42, be further provided with the auxiliary wheel 45 that an auxiliary electron element moves, described auxiliary wheel 45 rotation directions are identical with the throughput direction of magnetic-type delivery track 42, and auxiliary wheel 45 outlines are provided with the recess 451 that is ring-like arrangement and energy electronic component location.Electronic component moves the recess 451 that falls into auxiliary wheel 45 to the end of front magnetic-type delivery track 42, then is driven the front end to rear magnetic-type delivery track 42 by auxiliary wheel 45 along rotation direction.

As shown in Fig. 3, Figure 11, the downstream of printing element 40 is further provided with a magnetic chain 47 that electronic component can be delivered into baking box 46, these magnetic chain 47 lateral margins have magnetic and a wherein end of energy stick electronic components, make electronic component be transverse horizontal shape and enter baking box 46 to dry ink; And the mobile route of these magnetic chain 47 upstream extremities outside is provided with one can, by directly proofreading and correct and become the magnet 48 that transverse horizontal shape is advanced in magnetic mode to electronic component, allow electronic component in the unsettled state of level, is exposed to the interior even oven dry ink of baking box 46.

As shown in Fig. 3, Figure 12, described packaging unit 60 is arranged on multiple negative pressure suction nozzles 21 and turns round route end, this packaging unit 60 comprises a packaging delivery track 61, described packaging delivery track 61 tops arrange packing timber 62, packing timber 62 is provided with multiple grooves 621 of sequentially arranging, this groove 621 is corresponding to the below of negative pressure suction nozzle 21, to carry the electronic component departing from from negative pressure suction nozzle 21; Described packaging delivery track 61 is provided with one corresponding to the below of packing timber 62 and can attracts electronic component to fall into the magnet 63 of groove 621 location of packing timber 62.

Shown in above implementation and accompanying drawing, only casehistory preferred embodiment of the present utility model, not limits to scope of the present utility model with this; Such as or mutually duplicate person approximate with structure of the present utility model, device, feature etc., all should belong to of the present utility model and found in object and claim.

Claims (10)

1. the electronic component of an improvement is surveyed chartered plane, it is characterized in that, comprise that one supplies many electronic components with single the first feed unit of sequentially arranging towards board continuous feed, multiplely be the negative pressure suction nozzle that ring-like spread configuration is advanced to draw respectively electronic component on a stepping rotating disk, multiplely be arranged on the detecting test station for detection of electronic component on multiple negative pressure suction nozzle rotary paths, one is arranged on the printing element that print electronic component in multiple negative pressure suction nozzle rotary paths stage casing, one is arranged on second feed unit in printing element downstream, an and packaging unit that is arranged on multiple negative pressure suction nozzle rotary path ends, wherein:

Each negative pressure suction nozzle top is coaxially arranged with a passive fluted disc, stepping rotating disk between the first feed unit and printing element, and between the second feed unit and packaging unit, be respectively equipped with one can be towards passive fluted disc displacement closing or away from first clutch and the second clutch of passive fluted disc; This first clutch and second clutch are connivent in passive fluted disc and described stepping rotating disk continues to advance, can be because interfering passive fluted disc to be advanced to make the passive tooth turnback of spiraling, drive the electronic component rotation on negative pressure suction nozzle, the direction of the both positive and negative polarity of correcting electronic element on stepping rotating disk simultaneously.

2. the electronic component of improvement as claimed in claim 1 is surveyed chartered plane, it is characterized in that, the bottom of each negative pressure suction nozzle is in the same plane, and moved by stepping driven by rotary disc horizontal rotation; Each detecting test station is provided with a guiding channel on multiple negative pressure suction nozzle travel paths, is provided with two elastic conducting strips of relatively arranging and having circular arc chamfering in guiding channel; Aforementioned electronic element is moved in guiding channel by negative pressure suction nozzle absorption stepping, and moved between two elastic conducting strips by the guiding of circular arc chamfering to test.

3. the electronic component of improvement as claimed in claim 1 or 2 is surveyed chartered plane, it is characterized in that, multiple detecting test stations at least comprise a first both positive and negative polarity detecting test station being arranged between the first feed unit and printing element, and the second both positive and negative polarity detecting test station arranging between the second feed unit and packaging unit, aforementioned first clutch and second clutch are separately positioned on the downstream of the first both positive and negative polarity detecting test station and the second both positive and negative polarity detecting test station.

4. the electronic component of improvement as claimed in claim 3 is surveyed chartered plane, it is characterized in that, electronic component is surveyed chartered plane and in the course of multiple negative pressure suction nozzles, is further provided with the first collecting tank and the second collecting tank that can collect flaw electronic component, and described the first collecting tank and the second collecting tank are arranged on the downstream of the first both positive and negative polarity detecting test station and the second both positive and negative polarity detecting test station.

5. the electronic component of improvement as claimed in claim 1 is surveyed chartered plane, it is characterized in that, printing element comprises a stamp pad that is positioned at the magnetic-type delivery track, that is arranged on holding groove downstream to accept the holding groove, of electronic component under negative pressure suction nozzle and is arranged on magnetic-type delivery track end; Wherein, these magnetic-type delivery track both sides have magnetic, and its magnetic attraction is towards downstream end crescendo, and the electronic component entering in magnetic-type delivery track by holding groove can be subject to the magnetic attraction guiding of downstream end crescendo and automatically move and advance towards stamp pad.

6. the electronic component of improvement as claimed in claim 1 is surveyed chartered plane, it is characterized in that, outside, track both sides is respectively equipped with horizontal magnetite, and the distance between two magnetites, towards downstream convergent, makes the magnetic attraction of magnetic-type delivery track both sides towards downstream end crescendo.

7. the electronic component of the improvement as described in claim 5 or 6 is surveyed chartered plane, it is characterized in that, magnetic-type delivery track is connected before and after being provided with two groups mutually, between two groups of magnetic-type delivery tracks, be further provided with the auxiliary wheel that an auxiliary electron element moves, described auxiliary wheel outline is provided with the recess that is ring-like arrangement and energy electronic component location.

8. the electronic component of improvement as claimed in claim 1 is surveyed chartered plane, it is characterized in that, the downstream of printing element is further provided with a magnetic chain that electronic component can be delivered into baking box, and a material collecting box that is positioned at baking box downstream; This magnetic chain lateral margin has magnetic and a wherein end of energy stick electronic components, makes electronic component be transverse horizontal shape and enters baking box to dry ink; And the mobile route of this magnetic chain upstream extremity outside is provided with one and can directly proofreaies and correct in magnetic mode to electronic component and become the magnet that transverse horizontal shape is advanced.

9. the electronic component of improvement as claimed in claim 1 is surveyed chartered plane, it is characterized in that, packaging unit comprises a packaging delivery track, described packaging delivery track top arranges packing timber, packing timber is provided with multiple grooves of sequentially arranging, described groove is corresponding to the below of negative pressure suction nozzle, to carry the electronic component departing from from negative pressure suction nozzle; Described packaging delivery track is provided with corresponding to the below of packing timber the magnet that a groove that can attract electronic component to fall into packing timber is located.

10. the electronic component of improvement as claimed in claim 1 is surveyed chartered plane, it is characterized in that, the first feed unit comprise one for many electronic components with single sequentially longitudinal arrangement be arranged in the first charging track upstream and respectively each electronic component pushed to continuously by vibration mode the first vibrating disc of charging track towards the first charging track and of stepping rotating disk continuous feed, described the first charging track downstream end is provided with a first feeding groove being positioned under negative pressure suction nozzle; The second feed unit comprises one and longitudinally sequentially arranges with single the second vibrating disc that is arranged in the second charging track upstream and respectively electronic component after each printing is pushed to continuously by vibration mode the second charging track towards the second charging track and of stepping rotating disk continuous feed for the electronic component after plural number printing, and described the second charging track downstream end is provided with a second feeding groove being positioned under negative pressure suction nozzle.