CN109143013A - Electronic component detection method and device and carrier disc used for detection method - Google Patents

Abstract

The invention provides an electronic component detection method, an electronic component detection device and a carrying disc used for the detection method, wherein the detection method comprises the following steps: a carrying step, a carrying disc is used for carrying a to-be-detected element in a carrying groove to pass through a detection area by an intermittent rotating flow path; a stopping step, when the element to be detected stays in the detection area, a stopping piece is moved into the loading groove from the outside of the intermittent rotating flow path; a detecting step, making several probe elements touch and lift the element to be detected upward and be blocked by the blocking part, so as to detect the element to be detected.

Description

Electronic component detection method, device and the load plate for being used in the detection method

Technical field

The present invention about a kind of detection method, device and the load plate for being used in the detection method, it is espespecially a kind of to The electronic component that is transported is detected in having a rest property rotation flow path electronic component detection method, device and it is used in the detection side The load plate of method.

Background technique

Known electronic component such as light emitting diode (LED) or passive device etc., usually will do it physical characteristic after production Detection, to be classified and be packed；Patent No. I 447060 " Work transfer apparatus " have disclosed a kind of electronic component detection Device has platform base, and rotates freely configuration on platform base and be equipped with several workpiece reception holes in outer part Carrying platform, and via separation supply department be linked to carrying platform, can by workpiece be supplied to carrying platform workpiece reception hole Interior linear feeder；Wherein, the upper surface of linear feeder, separation supply department, workpiece reception hole are covered with by platform the cover；This Outside, in the outer part of carrying platform, the 1st inspection portion, the 2nd inspection portion are sequentially with according to following along intermittent rotary direction；Workpiece Make with rectangular shape and in the ontology above with light-emitting surface and from ontology towards the front of length direction and rear are prominent For the lead terminal of electrode；Carrying platform rotation carries workpiece and reaches the 1st inspection portion, and carrying platform will stop, at this point, in drawing In the platform base of the following position directly of line terminals, equipped with vertical direction probe free to advance or retreat, made using the effect of control unit Probe advances towards lead terminal, is up pushed away workpiece with abut the state of lead terminal, becomes the upper surface of workpiece and is connected to Just stop up pushing away after state below 1st inspection portion the cover, after being measured the characteristic of workpiece, probe is just moved back downwards Out, it and is further continued for that carrying platform intermittent rotary is made to carry workpiece to the 2nd inspection portion.

Aforementioned electronic inspection device for components is only applicable to the electronic component that detection has smooth light-emitting surface, if electronic component It is convexly equipped with the illumination region based on lens (Lens), when electronic component is up pushed away by probe, the hair of electronic component projection above Light portion can not with developed below the cover, cause electronic component level height can skew not just, cause detected value to be deviated, And the illumination region of projection is also easy to generate breakage because squeezing；Therefore patent No. I No. 559989 " apparatus for sorting article and its operating sides Method " separately discloses a kind of Electron YuanJianJianCeZhuangZhi, comprising: parts feeder is aligned and supplies LED chip；Conveyer, from zero Part dispenser receives LED chip, is adsorbed and holds and automatically supply position by checking that position is transported towards drain position；Check dress It sets, is arranged along conveyer transport path, to check the electric characteristics and optical characteristics of position detection LED chip；Wherein, LED It is convexly equipped with illumination region in the upper horizontal surface of chip, when LED chip is up pushed away by probe in inspection, LED chip upper surface is convex If illumination region may move into the side guiding element of fixed position and engrave in hole, so that the upper surface of LED chip is connected to the side of fixed position When the electronic component of the lower surface of guiding element, the so illumination region with projection is up pushed away in incorporating section by probe, it can maintain The illumination region of fixed level height and projection is also not likely to produce breakage.

Summary of the invention

No. 447060 patents of known I are unable to get accurate inspection when detection has the electronic component of protrusion illumination region The illumination region of measured value and electronic component is easy to produce damaged and then influences detection progress；Though No. 559989 patents of known I can be right Electronic component with protrusion illumination region is detected, but as the electronic component of LED light emitting diode all can in the fabrication process There is a little viscose to remain, electronic component is pushed in inspection when being connected to side guiding element, and electronic component, which is easy to be stained with, to be sticked in side guiding element On, lead to electronic component a part engraving in hole in side guiding element, another part makes electronic component in the incorporating section of conveyer When transferring to the next stop after inspection, because side guiding element is held in fixed position, and conveyer is displaced relative to side guiding element, Therefore it causes electronic component to generate damaged and then influence detection and carries out；Therefore how effectively electronic component detect becoming and be needed The project of research.

Therefore, the purpose of the present invention is to provide a kind of electronic component detections that can be effectively detected to electronic component Method.

Electronic component detection method provided by the object of the invention is used another object of the present invention is to provide a kind of Electron YuanJianJianCeZhuangZhi.

Another object of the present invention is to provide a kind of electronic component detection that can be effectively detected to electronic component Device.

A further object again of the invention is to provide a kind of using electronic component detection method provided by the object of the invention Load plate.

The electronic component detection method of purpose according to the present invention, comprising: a conveying step makes a load plate with intermittence rotation Flow path conveying one carries the element under test in slot through a detection zone；One gear supports step, which rests on the detection zone When domain, make a gear arrived piece by moving into the load slot outside intermittence rotation flow path, and rest on the position above the element under test；One Detecting step, touch several probe members upwards and jack the element under test by the gear arrived piece gear support, to element under test It is detected.

The Electron YuanJianJianCeZhuangZhi of another object according to the present invention, including to execute the electronic component detection method Device.

The Electron YuanJianJianCeZhuangZhi of a further object according to the present invention, comprising: a load plate, between periphery circular row laying etc. Away from recessed several load slots, forms intermittent rotation flow path and examined with transporting element under test to the detection zone in load slot It surveys；One gear pushing device, set on the side of the load plate, which is equipped with a gear arrived piece, is transported in element under test through the inspection When surveying region, which is optionally rotated outside flow path by intermittence into and out the load slot.

The load plate of a further object again according to the present invention, is used in the electronic component detection method, which has periphery Circular row lays equidistant recessed several load slots, which is equipped with an accommodating area and an area Shou Guang above the accommodating area, Being equipped with a communication port between the two makes the accommodating area and the area Shou Guang be interconnected, which is equipped with a stopping part in the accommodating area Between the area Shou Guang.

The load plate of the embodiment of the present invention, electronic component detection method and device, element under test is in the load slot of the first load plate It is against above two corners on the inside of the body part of element under test with stopping part gear；It is revolved in element under test by the first load plate with intermittence When turn of tidal stream road is transported to detection zone, gear pushing device have resigning mouthful gear arrived piece can in the case where not touching illumination region by It moves horizontally into and is carried in slot outside having a rest property rotation flow path, and rest on above two corners on the outside of the body part of element under test；To Element is surveyed when being jacked upwards by probe member, gear arrived piece and stopping part can be kept off respectively on four corners for being against body part, make to Survey element is maintained to be detected in the fixation level height for keeping a spacing with bottom surface, and element under test can be effectively detected.

Detailed description of the invention

Fig. 1 is the stereoscopic schematic diagram of Electron YuanJianJianCeZhuangZhi in the embodiment of the present invention.

Fig. 2 is the part isometric schematic diagram of the first load plate and element under test in the embodiment of the present invention.

Fig. 3 is the elevational schematic view of Fig. 2 in the embodiment of the present invention.

Fig. 4 is the stereoscopic schematic diagram that pushing device is kept off in the embodiment of the present invention.

Fig. 5 is to keep off pushing device, the first load plate, optical integrating-sphere, probe unit positional relationship in the embodiment of the present invention to show It is intended to.

Fig. 6 is to keep off arrived piece in the embodiment of the present invention to move into the schematic diagram for carrying slot.

Fig. 7 is to keep off arrived piece in the embodiment of the present invention to remove the schematic diagram for carrying slot.

Fig. 8 be Fig. 6 in the embodiment of the present invention A-A diagrammatic cross-section (element under test by probe member jacking be connected to gear Below arrived piece and stopping part).

Fig. 9 is to keep off arrived piece in another embodiment of the present invention to move into the schematic diagram for carrying slot.

Figure 10 be Fig. 9 in another embodiment of the present invention B-B diagrammatic cross-section (element under test by probe member jack abut Below gear arrived piece).

[symbol description]

A detection platform A1 conveys conduit

B the first load plate B1 carries slot

B1 ' carries the accommodating area slot B11

B111 negative pressure sucker the first guidance part of B112

The area B12 Shou Guang B13 communication port

B131 stopping part B132 recessed face

B133 the second guidance part B2 locating part

B21 conduit B3 detection zone

B31 integrating sphere B32 probe unit

The common discharge pipe of B321 probe member B4

C keeps off pushing device C1 drive module

C11 fixing seat C12 support frame

C121 the first support portion the second support portion of C122

C123 the first elastic component the second elastic component of C124

The embedding hole C126 pivot hole of C125

C127 position check unit C13 electromagnetic component

C131 perforation C132 actuator

C133 is by magnetic part C134 bolster

C135 sensing chip C136 pushes part

C14 fixing piece C2 mobile module

The embedding hole C21 fixed block C211

C212 stop bit part C213 tank

C22 third elastic component C23 movable block

C231 tank C24 keeps off arrived piece

The inclined-plane C241 C242 resigning mouthful

C242 ' resigning mouthful the second load plate of D

D1 carries slot D2 locating part

D3 passing away E connection unit

L center line W element under test

W1 body part W2 illumination region

Specific embodiment

Referring to Fig. 1, the electronic component detection method of the embodiment of the present invention can be as shown in the figure use with LED shine Diode is the Electron YuanJianJianCeZhuangZhi of electronic component to explain, which, which is equipped with, includes:

One detection platform A conveys the element under test transmitted by vibration feeder (not shown) permutation equipped with conveying conduit A1 W；

One first load plate B is set on detection platform A, and is carried out element under test W with one first intermittent rotation flow path and removed It sending, the load slot B1 towards outward opening is laid equidistantly and be equipped with to periphery circular row, and the load periphery slot B1 that circular row is laid is equipped with locating part B2, The element under test W transported to prevent spin-ended turn is dished out by centrifugal force；Locating part B2 is equipped with a conduit being connected to load slot B1 B21；The first load plate B forms one clockwise first intermittent rotation flow path and holds the member to be measured received from conveying conduit A1 input Part W, the first intermittent rotation flow path sequentially transport element under test W through the common discharge pipe B4 of a detection zone B3 and one；

One gear pushing device C, set on first load plate B side and be equipped with adjacent to detection zone B3, gear pushing device C An one drive module C1 and mobile module C2；

One second load plate D is set on detection platform A, and is transported with one second intermittent rotation flow path, periphery ring The load slot D1 towards outward opening is laid equidistantly and be equipped with to column, and the load periphery slot D1 that circular row is laid is equipped with locating part D2, to prevent spin-ended The element under test W for turning conveying is dished out by centrifugal force；The second load plate D-shaped at a clockwise second intermittent rotation flow path with into Row element under test W conveying, and it is neighbouring with first load plate B；Each load slot D1 difference of the second intermittent rotating flow road is respective It is correspondingly provided with passing away D3；

The connection of conveying flow path is formed between first load plate B, the second load plate D with a connection unit E, can for a channel or Element under test W is transmitted in a manner of conveying in the conveyer of the load slot B1 and the second load plate D of the first load plate B carried between slot D1 to adsorb Structure；First load plate B, the second load plate D, connection unit E are same to be located on the horizontal detection platform A；First intermittent rotation flow path with Connection unit E is that boundary is divided into leading portion and back segment, detection zone B3 and gear pushing device C be set to the first intermittent rotation flow path it Leading portion, the common discharge pipe B4 are set to section after the first intermittent rotation flow path, can so avoid the first intermittent rotation flow path The interference of various detection zones or device on leading portion；

The first intermittent rotation flow path that first load plate B is transported forms the stream of two phase bifurcateds at connection unit E It road should be to when the result that element under test W is detected through detection zone B3 is to belong to the higher element under test W of blanking frequency It, will be by the first intermittent flow path that rotates of the first load plate B from horizontal radial when survey element W is transported to up at connection unit E Discharge, and enter connection unit E, then rotate the load slot D1 quilt of flow path into the second intermittence of the second load plate D with horizontal radial Conveying, and be discharged into preset load slot D1 according to testing result and distinguish corresponding passing away D3, to be discharged the second load plate D's Second intermittent rotation flow path；When the result that element under test W is detected through detection zone B3 is lower to belong to blanking frequency When element under test W, when element under test W is transported to up at connection unit E, by continuous the first intermittence for following the first load plate B Rotation flow path, which is transported, crosses connection unit E, and reaches common discharge pipe B4, and the first load plate B is discharged by common discharge pipe B4 The first intermittent rotation flow path.

Please refer to Fig. 2,3, element under test W be equipped with one spatially the body part W1 of rectangle and one it is convex by the top body part W1 If illumination region W2；The load slot B1 of first load plate B is equipped with an accommodating area B11 and one and is located at the area Shou Guang above the B11 of the accommodating area B12, being equipped with a communication port B13 between the two makes accommodating area B11 that can be interconnected with the area Shou Guang B12；Element under test W is carrying slot It is transported in the positional relationship of accommodating area B11 and illumination region W2 in the area Shou Guang B12 by the first load plate B in B1 with body part W1, at this time Element under test W has identical center line L with slot B1 is carried；Accommodating area B11 has the side in rectangle, in the B11 of accommodating area Side is equipped with the body part W1 of an adsorbable element under test W of negative pressure sucker B111, and two sides at the B11 outer openings of accommodating area are respectively set There is one first guidance part B112 that body part W1 can be made to be easily accessible accommodating area B11；The area Shou Guang B12 be by load plate B upper surface by Arc periphery slopes down to communication port B13 towards the direction center line L for carrying slot B1 and is formed, and the area Shi Shouguang B12 is in upper opening Greatly, the beam contracting shape that lower section is open small at communication port B13, helps to collect the light emitted by illumination region W2；Communication port B13 Equipped with a stopping part B131 between the accommodating area area B11 and Shou Guang B12, stopping part B131 is by communication port B13 inner peripheral Extend towards the direction center line L, communication port B13 is made to form the neck mouth of beam contracting above the B11 of accommodating area；It is set on the inside of communication port B13 There is an arc recessed face B132 that can dodge illumination region W2, keep off stopping part B131 can and be against on the inside of body part W1 above two corners； Two sides at communication port B13 outer openings, which are respectively provided with one second guidance part B133, can make illumination region W2 be easily accessible the area Shou Guang B12；The construction of second load plate D is identical as the first load plate B, does not add to repeat herein.

Fig. 1,4,5 are please referred to, the drive module C1 of gear pushing device C, which is equipped with, includes:

One fixing seat C11 is set on locating part B2；

One support frame C12 is set on fixing seat C11, and support frame C12 is equipped with one first support portion C121 and one second Support portion C122；The first support portion C121 is connected with fixing seat C11, and the both ends of the first support portion C121 are respectively equipped with one first Elastic component C123 and one second elastic component C124, the two are all the tablet of metal material, respectively offer the embedding hole of a hollow out C125；The second support portion C122 is vertical with the first support portion C121, and the second support portion C122 is equipped with the pivot hole of a hollow out The position check unit C127 of such as proximity switch of C126 and one；

One electromagnetic component C13 is set on the second support portion C122, which is provided with the perforation C131 of hollow out, for an actuator C132 drawing-in；Actuator C132 is a rhabodoid, and both ends respectively penetrate the first elastic component C123's and the second elastic component C124 Embedding hole C125, and the both ends of actuator C132 are respectively fixed on by the first elastic component C123 and the second elastic component with a fixing piece C14 On C124；The one end actuator C132 is equipped with a plate by magnetic part C133, be located at electromagnetic component C13 and the first elastic component C123 it Between, the other end of actuator C132 is sequentially equipped with a plate bolster C134, an induction on the direction towards mobile module C2 Piece C135 and one pushes part C136；Bolster C134 is set between fixing piece C14 and the second support portion C122, can prevent from driving Fixing piece C14 directly touches the second support portion C122 when moving part C132 is displaced；Sensing chip C135 is located in the second elastic component C124 and this push between part C136, can correspond to close to or away from position check unit C127 with the position of detection actuator C132；

Electromagnetic component C13 can generate magnetic force to attract by magnetic part C133, by electromagnetic component C13 attraction by magnetic because of energization Part C133 can interlock actuator C132 towards the direction mobile module C2 be displaced, make the first elastic component C123 and the second elastic component C124 because The position change of actuator C132 and towards the slightly inclined deformation in the direction mobile module C2.

It please refers to Fig. 1,4,5, keeps off the mobile module C2 of pushing device C, equipped with including:

One fixed block C21 is set on locating part B2, an embedding hole C211 is offered on fixed block C21, for a rod-shaped stop bit One end of part C212 is fixed；Fixed block C21 is equipped with a tank C213 on the end face towards drive module C1, for a such as spring Third elastic component C22 one end accommodating, and the other end of stop bit part C212 penetrates third elastic component C22；

One movable block C23 is equipped with a tank C231, accommodates for the other end of third elastic component C22, makes to be located in fixation Third elastic component C22 between block C21 and movable block C23 can push what movable block C23 was posted by drive module C1 to push part C136；

One gear arrived piece C24, set on the lower section of movable block C23, when element under test W is transported to detection zone B3, the gear Arrived piece C24 can selectively be rotated outside flow path by the first intermittence into and out load slot B1 via conduit B21；Keep off arrived piece C24 In long strip, one end is connected with movable block C23, and the other end is equipped with an inclined-plane C241 from top to bottom highly to successively decrease, and at this The end of inclined-plane C241 is equipped with the recessed resigning mouthful C242 of an arc；It keeps off arrived piece C24 and is being equipped with a backing pin at fixed block C21 C243 can prevent from losing pushing movable block C23 that part C136 is reversely pushed because of third elastic component when dismantling drive module C1 The promotion of C22 and interlock gear arrived piece C24 project conduit B21 outside；

When the actuator C132 of drive module C1 is displaced towards the direction mobile module C2, the part C136 that pushes thereon pushes shifting Motion block C23 compresses third elastic component C22, and the movable block C23 pushed interlocks gear arrived piece C24 with resigning mouthful C242's One end rests on the body part of element under test W by carrying in slot B1 outside the first intermittent rotation flow path to move into horizontal direction Position above W1, the resigning mouthful C242 of gear arrived piece C24 can dodge the illumination region W2 (Fig. 6) of element under test W；In electromagnetic component When C13 is released to attraction by magnetic part C133, movable block C23 makes to keep off arrived piece C24 tool because of the elastic-restoring force of third elastic component C22 There is one end of resigning mouthful C242 to remove with horizontal direction and carries slot B1 (Fig. 7)；Wherein, in third elastic component C22 elastic fatigue or electricity The shift motion of magnetic cell C13, which becomes larger ... waits in special circumstances, stop bit part C212 can block movable block C23, prevent movable block C23 Interlocking excessive the protruding into of gear arrived piece C24 and carrying causes element under test W damaged in slot B1.

Please refer to Fig. 5,8, carry the element under test W in slot B1 in detection zone B3 (Fig. 1) with an optical integrating-sphere B31 with One probe unit B32 is detected, and when detecting element under test W, the one end of gear arrived piece C24 with resigning mouthful C242 is by between first The position above the body part W1 for carrying in slot B1 and resting on element under test W is moved into outside having a rest property rotation flow path；Probe unit B32 with Several probe member B321 touch the electrode (not shown) of element under test W upwards and jack element under test W upwards, make body part W1 is connected to below gear arrived piece C24 and stopping part B131, and gear arrived piece C24 gear is against body part W1 towards the both sides carried on the outside of slot B1 On angle, and stopping part B131 gear is against on other two corner that body part W1 direction carries on the inside of slot B1；It is touched in probe member B321 After the electrode of touching element under test W makes its illumination region W2 shine, element under test W will be maintained at the fixation water that a spacing is kept with bottom surface Optical characteristics is detected with optical integrating-sphere B31 in flat height.

The electronic component detection method of the embodiment of the present invention is on the implementation, comprising the following steps:

One conveying step, make the first load plate B with the first intermittent rotation flow path conveying carry element under test W in slot B1 by way of Detection zone B3；

One gear supports step, when element under test W rests on detection zone B3, rotates gear arrived piece C24 outside flow path by intermittence It moves into and carries in slot B1, and rest on the position above the body part W1 of element under test W；

One detecting step touches several probe member B321 upwards and jacks element under test W by gear arrived piece C24 and gear Support B131 gear support, make element under test W maintain with bottom surface keep a spacing fixation level height on detected, and into Several probe member B321 are moved down after row detection and keep off arrived piece C24 removal load slot B1.

The load plate of the embodiment of the present invention, electronic component detection method and device, load slot of the element under test W in the first load plate B It is against above two corners on the inside of the body part W1 of element under test W in B1 with stopping part B131 gear；It is carried in element under test W by first When disk B is transported with intermittence rotation flow path to detection zone B3, gear arrived piece C24 of the gear pushing device C with resigning mouthful C242 can be It is carried in slot B1 in the case where not touching illumination region W2 by being moved horizontally into outside intermittence rotation flow path, and rests on element under test W Body part W1 on the outside of two corners above；When element under test W is jacked upwards by probe member B321, gear arrived piece C24 and gear Support B131 can be kept off respectively on four corners for being against body part W1, maintained element under test W and kept a spacing with bottom surface It is detected in fixed level height, element under test W can be effectively detected.

Fig. 9,10 are please referred to, the load slot B1 ' nothing of another embodiment of the present invention is equipped with stopping part B131 (Fig. 3), and makes to have The gear arrived piece C24 ' of wider deep resigning mouthful C242 ' protrudes into the load interior direct gear of slot B1 ' and is against on two sides of body part W1.

But the foregoing is merely illustrative of the preferred embodiments of the present invention, when the model implemented of the present invention cannot be limited with this It encloses, i.e., all still belongs to according to simple equivalent changes and modifications made by scope of the present invention patent and invention description content generally In the range of the invention patent covers.

Claims (14)

1. a kind of electronic component detection method, comprising:

One conveying step makes a load plate with the element under test in intermittent one load slot of rotation flow path conveying through a detection zone；

One gear supports step, when which rests on the detection zone, makes a gear arrived piece by moving into outside intermittence rotation flow path In the load slot；

One detecting step, touch several probe members upwards and jack the element under test by the gear arrived piece gear support, to treat Element is surveyed to be detected.

2. electronic component detection method as described in claim 1, wherein the element under test has the ontology of a spatially rectangle Portion, gear arrived piece gear are against the body part towards on two corners on the outside of the load slot.

3. electronic component detection method as claimed in claim 2, wherein the body part is towards the other both sides on the inside of the load slot Angle is supported with the stopping part gear of the load slot.

4. electronic component detection method as described in claim 1, wherein the gear arrived piece is by the side of the load plate with horizontal direction It moves into the load slot.

5. electronic component detection method as described in claim 1, wherein the element under test is after being detected, several spies Needle element moves down, and the gear arrived piece removes the load slot.

6. a kind of Electron YuanJianJianCeZhuangZhi, comprising: to execute the electricity as described in any claim in claim 1 to 5 The device of subcomponent detection method.

7. a kind of Electron YuanJianJianCeZhuangZhi, comprising:

One load plate lays equidistant recessed several load slots with periphery circular row, forms intermittent rotation flow path and is carried with transporting Element under test in slot is detected through a detection zone；

One gear pushing device, set on the side of the load plate, which is equipped with a gear arrived piece, the gear arrived piece optionally by It is outer into and out the load slot that having a rest property rotates flow path.

8. Electron YuanJianJianCeZhuangZhi as claimed in claim 7, wherein the gear arrived piece is driven by an electromagnetic component to move into or move The load slot out.

9. Electron YuanJianJianCeZhuangZhi as claimed in claim 7, wherein the gear arrived piece is equipped with a recessed resigning mouthful.

10. Electron YuanJianJianCeZhuangZhi as claimed in claim 7, wherein the load slot is equipped with an accommodating area and is located at the appearance with one The area Shou Guang above area is set, being equipped with a communication port between the two makes the accommodating area and the area Shou Guang be interconnected；Element under test is equipped with One body part and one by projection above the body part illumination region；The element under test with the body part the accommodating area and this shine Portion is transported in the area Shou Guang by the load plate.

11. Electron YuanJianJianCeZhuangZhi as claimed in claim 10, wherein the area Shou Guang is by the upper surface of the load plate towards the load One centerline direction of slot slopes down to the communication port and is formed, and the area Shi Gaishouguang is big in upper opening, and lower opening is small Beam contracting shape.

12. Electron YuanJianJianCeZhuangZhi as claimed in claim 10, wherein the communication port is equipped with a stopping part in the accommodating area Between the area Shou Guang, which is extended by a centerline direction of the communication port inner peripheral towards the load slot.

13. Electron YuanJianJianCeZhuangZhi as claimed in claim 12, wherein the stopping part can dodge luminous equipped with a recessed face Portion.

14. a kind of load plate is used in the electronic component detection method as described in any claim in claim 1 to 5, the load There is disk periphery circular row to lay equidistant recessed several load slots, which is equipped with an accommodating area and is located above the accommodating area with one The area Shou Guang, being equipped with a communication port between the two makes the accommodating area and the area Shou Guang be interconnected, which is equipped with a stopping part Between the accommodating area and the area Shou Guang.