CN204074541U - Conveying device for detecting and sorting electronic components - Google Patents
Conveying device for detecting and sorting electronic components Download PDFInfo
- Publication number
- CN204074541U CN204074541U CN201420491182.2U CN201420491182U CN204074541U CN 204074541 U CN204074541 U CN 204074541U CN 201420491182 U CN201420491182 U CN 201420491182U CN 204074541 U CN204074541 U CN 204074541U
- Authority
- CN
- China
- Prior art keywords
- under test
- element under
- accommodation space
- electronic component
- carrying device
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
- 230000007246 mechanism Effects 0.000 claims abstract description 116
- 238000012360 testing method Methods 0.000 claims description 113
- 230000004308 accommodation Effects 0.000 claims description 73
- 238000012546 transfer Methods 0.000 claims description 65
- 238000012423 maintenance Methods 0.000 claims description 4
- 238000007599 discharging Methods 0.000 claims description 2
- 230000032258 transport Effects 0.000 claims 17
- 238000006073 displacement reaction Methods 0.000 abstract description 3
- 238000004020 luminiscence type Methods 0.000 description 22
- 238000000034 method Methods 0.000 description 10
- 238000010586 diagram Methods 0.000 description 6
- 238000001514 detection method Methods 0.000 description 5
- 238000005516 engineering process Methods 0.000 description 2
- 206010022000 influenza Diseases 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 238000012856 packing Methods 0.000 description 1
- 238000012545 processing Methods 0.000 description 1
- 230000026676 system process Effects 0.000 description 1
Landscapes
- Testing Of Individual Semiconductor Devices (AREA)
Abstract
The utility model relates to an electronic component detects handling device who selects separately, include: the measuring disc is arranged on a table top of a machine table and can be driven to rotate intermittently, and a plurality of spaced accommodating spaces are distributed in a circular array on the periphery of the measuring disc; the conveying mechanism is positioned on the machine table and is provided with a conveying channel, the conveying channel is provided with an output port, and the elements to be tested which are arranged in a row are discharged from the output port; the feeding mechanism is arranged on a conveying path of the conveying mechanism for conveying the element to be detected into the accommodating space of the measuring disc and can be driven to perform intermittent reciprocating displacement; the elements to be measured discharged from the outlet are intermittently and reciprocally displaced by the feeding mechanism, and sequentially enter the accommodating space at the periphery of the measuring disc to be conveyed.
Description
Technical field
The utility model has about a kind of carrying device, espespecially a kind of carrying device carrying out the electronic component grouping system in grouping system process, electronic component being performed to conveyance.
Background technology
General electronic component is owing to having different physical characteristics, therefore often need via detection, the program of sorting carries out packing or classifying, due to miniaturization and the amount large attribute of electronic component, for detecting, the device of sorting must provide accurate, transport rapidly, in addition, due to processing procedure factor, the physical characteristic of same electronic component is more and more diversified, therefore be required must be the more for the BIN number of sorting, therefore detect, the installation cost of sorting will be more and more high, based on this factor, close different electronic components are done the conveyance of intercommunity, can the manufacturing cost of alleviator equipment.
Example is detected as with light emitting diode (LED), be slightly generally in the light emitting diode (LED) of square with build, it roughly belongs to light-emitting area upside luminescence up (Top view) type, and its conductive layer is in below, therefore detecting unit need be established up when detecting and establish conducting terminal in below, it is normal adopt vibrations feeder to coordinate periphery to have rotating disk that circular row lays multiple shape of short slot separately and opening accommodation space outwardly in conveyance mode, make the opening of the direct corresponding turntable rotation center of the conveying channel outlet of vibrations feeder and accommodation space, and direct for element to be transported forward is entered in accommodation space from the propelling movement of conveying channel outlet, to do by rotating disk to rotate conveyance to detect, and after detecting, according to testing result present the physical characteristic data obtained, element is discharged rotating disk with air pressure, and optionally move to one of multiple discharge line with swing arm guiding, and enter disposable box and be collected.
Utility model content
But, background technology also reckons without when light emitting diode (LED) situation that is rectangle and lateral emitting (Side view), the light emitting diode of this kind of lateral emitting (Side view), its light-emitting area is at side, and conductive layer up, therefore need detecting unit be established at side when detecting and establish conducting terminal up, therefore when light emitting diode (LED) is for this kind of rectangle and lateral emitting (Side view), it cannot by be horizontally set with and the mode of vertical channels throughput direction is transferred in the conveying conduit of vibrations feeder, therefore when rectangle light emitting diode is forced to be released from conveying outlet in the mode of long side parallel channel throughput direction, when its autorotation disk accommodation space opening enters, this LED sides luminous site is by by the side institute shield of short slot shape accommodation space, and detecting unit cannot be established to detect at side.
Therefore, the purpose of this utility model, when being that the light emitting diode providing one to be applicable to carry out upside luminous (Top view) and lateral emitting (Side view) detects, in order to transport the carrying device of the electronic component grouping system of element under test.
When another object of the utility model is that the light emitting diode providing one to be applicable to carry out lateral emitting (Side view) detects, in order to transport the carrying device of the electronic component grouping system of element under test.
When the another object of the utility model is that the light emitting diode providing one to be applicable to carry out upside luminous (Top view) and lateral emitting (Side view) detects, in order to transport the carrying device of the electronic component grouping system of element under test.
According to the carrying device of the electronic component grouping system of the utility model object, comprising: a conveying mechanism, with the transport path of a conveying conduit, element under test is transferred conduit and is sent by from a delivery port; One feeding mechanism, transfers the element under test released from delivery port; One steering mechanism, accepts with a transfer portion element under test that feeding mechanism institute transfers, and the element under test in transfer portion is rotated an angle; One survey dish, the element under test that the transfer portion of accepting steering mechanism shifts out, element under test is located, is transported in the accommodation space of survey dish.
According to the carrying device of another electronic component grouping system of the utility model object, comprising: a conveying mechanism, be provided with a conveying conduit, it makes element under test be transferred conduit with a transport path to send from a delivery port; One feeding mechanism, transfers the element under test that the delivery port from this conveying mechanism is released; One survey dish, be provided with the element under test that accommodation space accepts feeding mechanism transfer, it is located, is transported in the accommodation space of survey dish.
According to the carrying device of the another electronic component grouping system of the utility model object, comprising: a conveying conduit, maintain one first when element under test is sent from a delivery port with the first transport path and install direction; One survey dish, is provided with accommodation space, and element under test, under maintenance one first installs direction, is transferred by with second transport path in vertical first transport path direction, and entered the accommodation space of survey dish from an opening.
According to the carrying device of an electronic component grouping system again of the utility model object, comprising: a conveying conduit, maintain one first when element under test is sent from a delivery port with the first transport path and install direction; One steering mechanism, makes the element under test sent from the delivery port of this conveying conduit be diverted and installs direction in one second; One survey dish, is provided with accommodation space and accepts self-steering mechanism by the element under test come with the second transport path transfer in parallel first transport path direction with an opening.
According to the carrying device of the electronic component grouping system of another object of the utility model, in order to transport the light emitting diode element under test of lateral emitting (Side view), comprising:
One conveying conduit, be provided with a delivery port, this element under test be transferred conduit conveying and from one
Delivery port is sent; One survey dish, what be provided with that accommodation space accepts that described delivery port sends is to be measured
Element, element under test adsorbed by negative pressure in accommodation space, and the lower tested dish conveyance in bottom side location of the accommodation space that reclines with the side of light-emitting area dorsal part.
According to the carrying device of another electronic component grouping system of another object of the utility model, in order to transport the light emitting diode element under test of lateral emitting (Side view), comprise: a conveying conduit, be provided with a delivery port, this element under test is transferred conduit conveying and sends from a delivery port; One steering mechanism, is provided with the element under test that transfer portion sends to accept described delivery port, and element under test also adsorbed by negative pressure in transfer portion, and with the side of light-emitting area recline transfer portion bottom side location under transported; One survey dish, is provided with the element under test that accommodation space is sent to accept described steering mechanism, and in the accommodation space of survey dish, keep light-emitting area dorsal part bottom side direction in accommodation space to be carried out transporting and detecting.
According to the carrying device of the electronic component grouping system of the another object of the utility model, comprising: a survey dish, be located on a table top of a board, can do intermittent rotation by driving, periphery has circular row and lays multiple accommodation space separately; One conveying mechanism, is positioned on described board, is provided with a conveying conduit, and conveying conduit is provided with a delivery outlet, carries out the element under test after permutation and is discharged by this delivery outlet; One feeding mechanism, is located at described conveying mechanism and element under test is delivered into this survey and coil on the transport path of described accommodation space, can make intermittent shift reciprocately by driving; The element under test of discharging by this delivery outlet is through the transfer of the intermittent shift reciprocately of feeding mechanism, and the accommodation space sequentially entering survey dish periphery is transported.
The carrying device of the electronic component grouping system of the utility model embodiment, the element under test transport path exported due to permutation is close to tangent state in steering mechanism excircle, therefore when being released from delivery port in the mode of long side parallel conveying conduit throughput direction, element under test is just positioned at the channel-shaped transfer portion of steering mechanism towards outward opening and feeding mechanism front, no matter element under test is rectangle and the light emitting diode of upside luminescence or rectangle and the light emitting diode of lateral emitting, push after in channel-shaped transfer portion of steering mechanism through feeding mechanism at element under test, turning to via steering mechanism, after element under test being pushed the accommodation space of survey dish in switch process, except the light emitting diode of upside luminescence can normally be tested, even if the light emitting diode of lateral emitting still can keep the long side of light-emitting area outer for testing towards opening, and the situation not having light-emitting area or crested occurs, and in like manner, square light emitting diode is because without long side or short side problem, it more can apply in the utility model embodiment, in addition, even if cancel turning to of steering mechanism, and make element under test directly push the accommodation space of survey dish through feeding mechanism, except the light emitting diode that can obtain equally except upside luminescence can normally be tested, even if the light emitting diode of lateral emitting still can keep the long side of light-emitting area outer for testing towards opening, and the situation not having light-emitting area or crested occurs.
Accompanying drawing explanation
Fig. 1 is the perspective exploded view that the light emitting diode of upside luminous (Top view) in the utility model embodiment carries out detecting.
Fig. 2 is the perspective exploded view that the light emitting diode of lateral emitting in the utility model embodiment (Side view) carries out detecting.
Fig. 3 is mechanism's configuration schematic diagram of the utility model first embodiment.
Fig. 4 is the part enlarged diagram that the utility model first embodiment carries out the light emitting diode conveyance of upside luminous (Top view).
Fig. 5 is the schematic perspective view that the survey dish of the utility model first embodiment and the light emitting diode of upside luminescence (Top view) carry out pan feeding.
Fig. 6 is the part enlarged diagram that the utility model first embodiment carries out the light emitting diode conveyance of lateral emitting (Side view).
Fig. 7 is the schematic perspective view that the survey dish of the utility model first embodiment and the light emitting diode of lateral emitting (Side view) carry out pan feeding.
Fig. 8 is the schematic diagram of the utility model second embodiment.
Fig. 9 is the part enlarged diagram that the utility model second embodiment carries out the light emitting diode conveyance of upside luminous (Top view).
Figure 10 is the part enlarged diagram that the utility model second embodiment carries out the light emitting diode conveyance of lateral emitting (Side view).
Symbol description
11 accommodation spaces are coiled in 1 survey
111 opening 112 bottom side
113 side limit 114 air flues
2 conveying mechanisms 21 carry conduit
22 delivery outlet 3 steering mechanism
31 transfer portion 311 openings
312 bottom side 313 side limits
314 air flue 4 feeding mechanisms
Light emitting diode A1 light-emitting area luminous on the upside of A
A2 conductive layer A3 detecting unit
A4 conducting terminal A5 long side
The light emitting diode B1 light-emitting area of B lateral emitting
B2 conductive layer B3 detecting unit
B4 conducting terminal B5 long side
Detailed description of the invention
Refer to Fig. 1, the transport method of the utility model embodiment electronic component grouping system and device, rectangle can be used in and in light emitting diode (LED) A of upside luminescence (Top view), its light-emitting area A1 up, and conductive layer A2 is in below, therefore detecting unit A3 need be established up when detecting and establish conducting terminal A4 in below; Separately refer to Fig. 2, the utility model embodiment also can be used in rectangle and light emitting diode (LED) B of lateral emitting (Side view), the light emitting diode of this kind of lateral emitting (Side view), its light-emitting area B1 is at side, and conductive layer B2 up, therefore need detecting unit B3 be established at side when detecting and establish conducting terminal B4 up; Except rectangle and except the light emitting diode (LED) of upside luminescence (Top view), lateral emitting (Side view), comprise other shapes square and also all according to the feature equivalence disclosed by the utility model embodiment or in like manner can convert.
Refer to Fig. 3-5, the transport method of the utility model embodiment electronic component grouping system and device, can implement by the device shown in figure, in figure using rectangle and light emitting diode (LED) A of upside luminescence (Top view) illustrate as element under test, this device comprises:
One survey dish 1, be located on a table top C1 of a board C, intermittent rotation can be done on table top C1 by driving, periphery has circular row and lays multiple shape of short slot separately and opening 111 accommodation space 11 radially, the table top C1 that 1 bottom surface and board C are coiled in this survey reclines, described accommodation space 11 is respectively provided with the bottom side 112 that leans on card center, and be positioned at the side limit 113 of bottom side 112 both sides, wherein comparatively side limit 113 is long for bottom side 112 length, and be provided with by bottom side 112 air flue 114 extended towards card center below survey dish 1, this air flue 114 communicates with accommodation space 11,
One conveying mechanism 2, it can be a vibration feeder, and be provided with a conveying conduit 21, this conveying conduit 21 is positioned at and coils with survey on 1 identical table top C1, and be provided with a delivery outlet 22, light emitting diode A element under test in order to the upside luminescence by majority carries out permutation, and is discharged by this delivery outlet 22 and deliver into accommodation space 11 described in this survey dish 1;
One steering mechanism 3, it is the disk body of a circle, be positioned at and coil with survey on 1 identical table top C1, and be located at described conveying mechanism 2 the light emitting diode A element under test of upside luminescence is delivered on the transport path of accommodation space 11 described in this survey dish 1, steering mechanism 3 can do intermittent rotation by driving, its periphery intervening gaps is provided with multiple channel-shaped transfer portion 31, two ninety degrees apart angle, 31, channel-shaped transfer portions, each channel-shaped transfer portion 31 is respectively provided with opening 311 outwardly, described channel-shaped transfer portion 31 is respectively provided with the bottom side 312 that leans on card center, and be positioned at the side limit 313 of bottom side 312 both sides, wherein comparatively side limit 313 is long for bottom side 312 length, and be provided with by bottom side 312 air flue 314 extended towards card center below steering mechanism 3, this air flue 314 communicates with channel-shaped transfer portion 31,
One feeding mechanism 4, intermittent forward and backward shift reciprocately can be made by driving, channel-shaped transfer portion 31 opening 311 outwardly of the corresponding steering mechanism 3 in its front end, the line that motion path and the survey of the forward and backward shift reciprocately in feeding mechanism 4 front end to be coiled in 1 center and steering mechanism 3 is in the heart vertical.
The transport method of the utility model embodiment electronic component grouping system, comprising:
One permutation exports step, the line that transport path and the survey of the conveying conduit 21 of this conveying mechanism 2 to be coiled in 1 center and steering mechanism 3 is in the heart parallel, therebetween and the spacing keeping to be greater than steering mechanism 3 radius, and in being close to tangent state with steering mechanism 3 excircle; When the light emitting diode A element under test of upside luminescence is pushed out from delivery port 22 with the first transport path of a long side A5 parallel conveying conduit 21 throughput direction, just be positioned at the channel-shaped transfer portion 31 of steering mechanism 3 towards outward opening 311 and feeding mechanism 4 front, also be therebetween, and with the corresponding channel-shaped transfer portion 31 of its long side A5 opening 311 outwardly, and keep light-emitting area A1 state upward;
One pan feeding step, be positioned at the light emitting diode A element under test of channel-shaped transfer portion 31 towards the upside luminescence between outward opening 311 and feeding mechanism 4 of steering mechanism 3, promoted transfer by feeding mechanism 4 subsequently and enter channel-shaped transfer portion 31 with long side A5 from opening 311, the luminous light emitting diode A element under test in upside also adsorbed by the negative pressure in air flue 314 in channel-shaped transfer portion 31, and locates with the recline bottom side 312 in channel-shaped transfer portion 31 of long side A5;
One turns to step, steering mechanism 3 rotated ninety degrees clockwise, the light emitting diode A element under test of the upside luminescence in channel-shaped transfer portion 31 is rotated conveyance to survey coil on the pan feeding path in 1 center and steering mechanism 3 in the heart between line, and make the opening 111 of the accommodation space 11 of the corresponding survey dish 1 of channel-shaped transfer portion 31 opening 311 being loaded with the luminous light emitting diode A element under test in upside;
One switch process, change the negative pressure in steering mechanism 3 air flue 314 into malleation, the luminous light emitting diode A element under test in upside is made to be blown channel-shaped transfer portion 31 by with second transport path in parallel first transport path direction under maintenance one first installs direction, and be pushed the opening 111 direction displacement of transfer toward the accommodation space 11 of survey dish 1, and air flue 114 in the accommodation space 11 of survey dish 1 is imposed negative pressure, and the light emitting diode A element under test of upside luminescence is sucked from opening 111 in the accommodation space 11 of survey dish 1 and located, undertaken transporting to carry out every detection and down-stream by the light emitting diode A element under test of survey dish 1 by upside luminescence.
Refer to Fig. 6, 7, with aforementioned transport method in like manner, when by the element under test transported being light emitting diode (LED) B of a lateral emitting (Side view), when it is released from delivery port 22 in the mode of parallel conveying conduit 21 throughput direction, with the corresponding channel-shaped transfer portion 31 of its long side B5 opening 311 outwardly, and keep light-emitting area B1 towards the state in opening 311 direction, passed by feeding mechanism 4 subsequently and enter channel-shaped transfer portion 31 with the long side B5 of light-emitting area B1 from opening 311, the light emitting diode B element under test of lateral emitting also adsorbed by the negative pressure in air flue 314 in channel-shaped transfer portion 31, and locate with the recline bottom side 312 in channel-shaped transfer portion 31 of the long side B5 of light-emitting area B1, steering mechanism 3 rotated ninety degrees clockwise, the light emitting diode B element under test of the lateral emitting in channel-shaped transfer portion 31 is rotated conveyance to survey to be coiled on the pan feeding path in 1 center and steering mechanism 3 in the heart between line, and make the opening 111 of the accommodation space 11 of the corresponding survey dish 1 of channel-shaped transfer portion 31 opening 311 of the light emitting diode B element under test being loaded with lateral emitting, change the negative pressure in steering mechanism 3 air flue 314 into malleation, the light emitting diode B element under test of lateral emitting is made to be blown the opening 111 direction displacement of channel-shaped transfer portion 31 toward the accommodation space 11 of survey dish 1, and air flue 114 in the accommodation space 11 of survey dish 1 is imposed negative pressure, and the light emitting diode B element under test of lateral emitting is sucked from opening 111 in the accommodation space 11 of survey dish 1 and located, now the light emitting diode B element under test of lateral emitting with the long side B5 of light-emitting area B1 towards outside opening 111, conductive layer B2 mode is up located, carry out transporting to carry out every detection and down-stream in order to do by the light emitting diode B element under test of survey dish 1 by lateral emitting.
The transport method of the electronic component grouping system of the utility model embodiment and device, the element under test transport path exported due to permutation is close to tangent state in steering mechanism 3 excircle, therefore when being released from delivery port 22 in the mode of long side B5 parallel conveying conduit 21 throughput direction, element under test is just positioned at the channel-shaped transfer portion 31 of steering mechanism 3 towards outward opening 311 and feeding mechanism 4 front, no matter element under test is rectangle and the light emitting diode A of upside luminescence or rectangle and the light emitting diode B of lateral emitting, push after in channel-shaped transfer portion of steering mechanism 3 31 through feeding mechanism 4 at element under test, via turning to of steering mechanism 3, after element under test being pushed the accommodation space 11 of survey dish 1 in switch process, except the light emitting diode A of upside luminescence can normally test, even if the light emitting diode B of lateral emitting still can keep the long side B5 of light-emitting area B1 outer for testing towards opening 111, and the situation not having light-emitting area A1 or B1 crested occurs, and in like manner, square light emitting diode is because without long side or short side problem, it more can apply in the utility model embodiment.
Refer to Fig. 8,9, the utility model second embodiment comprises survey dish 1, conveying mechanism 2, feeding mechanism 4 identical with the first embodiment, and the steering mechanism 3 omitted in the first embodiment, but can by accommodation space 11 opening 111 outwardly driving the corresponding survey dish 1 in the front end making intermittent forward and backward shift reciprocately by feeding mechanism 4, the axis of the forward and backward shift reciprocately motion path in feeding mechanism 4 front end is by the center of survey dish 1; Its transport method comprises:
One permutation exports step, the spacing making to keep to be greater than in the heart in the transport path of the conveying conduit 21 of this conveying mechanism 2 and survey dish 11 radius is coiled in survey, and is coil 1 excircle with survey to be close to tangent state; When the light emitting diode A element under test of upside luminescence is pushed out from delivery port 22 with the first transport path of a long side A5 parallel conveying conduit 21 throughput direction, the light emitting diode A element under test of upside luminescence maintains one first and installs direction, its accommodation space 11 being just positioned at survey dish 1 opening 111 outwardly and feeding mechanism 4 front, also be therebetween, and with the corresponding accommodation space 11 of its long side A5 opening 111 outwardly, and keep light-emitting area A1 state upward;
One pan feeding step, the light emitting diode A element under test of the upside luminescence between the accommodation space 11 being positioned at survey dish 1 opening 111 outwardly and feeding mechanism 4, transfer is pushed by feeding mechanism 4 with second transport path in vertical first transport path direction subsequently under maintenance one first installs direction, and enter accommodation space 11 with long side A5 from opening 111, the light emitting diode A element under test that upside is luminous also imposes negative pressure by air flue 114 in accommodation space 11, and the light emitting diode A element under test of upside luminescence is sucked from opening 111 in the accommodation space 11 of survey dish 1 and located, transport by the light emitting diode A element under test of survey dish 1 by upside luminescence, carry out every detection and down-stream.
The utility model second embodiment is when by the element under test transported being light emitting diode (LED) B of a lateral emitting (Side view), when it is released from delivery port 22 in the mode of long side B5 parallel conveying conduit 21 throughput direction, with the corresponding accommodation space 11 of its long side B5 opening 111 outwardly, and keep the state in light-emitting area B1 opening 111 direction of survey dish 1 dorsad, passed by feeding mechanism 4 subsequently and enter accommodation space 11 with the long side B5 of light-emitting area B1 dorsal part from opening 111, the light emitting diode B element under test of lateral emitting also adsorbed by the negative pressure in air flue 114 in accommodation space 11, and locate with the recline bottom side 112 of accommodation space 11 of the long side B5 of light-emitting area B1 dorsal part, now the light emitting diode B element under test of lateral emitting, conductive layer B2 mode up outer towards opening 111 with light-emitting area B1 is located, and is carried out transporting to carry out every detection and down-stream by the light emitting diode B element under test of lateral emitting in order to do by survey dish 1.
The above, be only preferred embodiment of the present utility model, when can not limit the scope of the utility model enforcement with this, namely all simple equivalence changes done according to the utility model claim and utility model description with modify, all still belong in scope that the utility model patent contains.
Claims (27)
1. a carrying device for electronic component grouping system, comprising:
One conveying mechanism, with the transport path of a conveying conduit, element under test is transferred conduit and is sent by from a delivery port;
One feeding mechanism, transfers the element under test released from delivery port;
One steering mechanism, accepts with a transfer portion element under test that feeding mechanism institute transfers, and the element under test in transfer portion is rotated an angle;
One survey dish, the element under test that the transfer portion of accepting steering mechanism shifts out, element under test is located, is transported in the accommodation space of survey dish.
2. the carrying device of electronic component grouping system as claimed in claim 1, is characterized in that, the transport path of the conveying conduit of this conveying mechanism is about slightly parallel with the line surveyed in disk center and steering mechanism in the heart.
3. the carrying device of electronic component grouping system as claimed in claim 1, it is characterized in that, keep the spacing that is greater than steering mechanism's radius in the transport path of the conveying conduit of this conveying mechanism and steering mechanism in the heart, and be close to tangent state in steering mechanism excircle.
4. the carrying device of electronic component grouping system as claimed in claim 1, is characterized in that, when this element under test is sent from delivery port, be just positioned at transfer portion outward opening on one day and the feeding mechanism front of steering mechanism.
5. the carrying device of electronic component grouping system as claimed in claim 1, is characterized in that, when this element under test is sent from delivery port, with the corresponding transfer portion of its a long side opening outwardly.
6. the carrying device of electronic component grouping system as claimed in claim 1, it is characterized in that, this element under test is entered transfer portion with a long side of element under test from an opening by feeding mechanism, and a bottom side location in the transfer portion that reclines with long side.
7. the carrying device of electronic component grouping system as claimed in claim 1, it is characterized in that, this steering mechanism's rotated ninety degrees, element under test in transfer portion is rotated conveyance on the pan feeding path surveyed between disk center and steering mechanism's line of centres, be loaded with the opening of the accommodation space of the corresponding survey dish of transfer portion opening of element under test.
8. a carrying device for electronic component grouping system, comprising:
One conveying mechanism, is provided with a conveying conduit, and it makes element under test be transferred conduit with a transport path to send from a delivery port;
One feeding mechanism, transfers the element under test that the delivery port from this conveying mechanism is released;
One survey dish, be provided with the element under test that accommodation space accepts feeding mechanism transfer, it is located, is transported in the accommodation space of survey dish.
9. the carrying device of electronic component grouping system as claimed in claim 8, is characterized in that, the transport path of the conveying conduit of this conveying mechanism and the spacing surveyed disk center and keeps one to be greater than survey dish radius, and is be close to tangent state with survey dish excircle.
10. the carrying device of electronic component grouping system as claimed in claim 8, is characterized in that, when this element under test is sent from delivery port, and the accommodation space being just positioned at survey dish opening outwardly and feeding mechanism front.
The carrying device of 11. electronic component grouping systems as claimed in claim 8, is characterized in that, when this element under test is sent from delivery port, with the corresponding accommodation space of its a long side opening outwardly.
The carrying device of 12. electronic component grouping systems as claimed in claim 8, it is characterized in that, this element under test is entered accommodation space with a long side of element under test from an opening by feeding mechanism, and a bottom side location of the accommodation space that reclines with long side.
13. as described in any one of claim 1 or 8 carrying device of electronic component grouping system, it is characterized in that, this element under test is sent by from delivery port by the mode of long side parallel conveying conduit throughput direction.
14. as described in any one of claim 1 or 8 carrying device of electronic component grouping system, it is characterized in that, this element under test is entered the accommodation space of survey dish from an opening with a long side of element under test by feeding mechanism, and a bottom side location of the accommodation space that reclines with long side.
The carrying device of 15. 1 kinds of electronic component grouping systems, comprising:
One conveying conduit, maintains one first and installs direction when element under test is sent from a delivery port with the first transport path;
One survey dish, is provided with accommodation space, and element under test, under maintenance one first installs direction, is transferred by with second transport path in vertical first transport path direction, and entered the accommodation space of survey dish from an opening.
The carrying device of 16. 1 kinds of electronic component grouping systems, comprising:
One conveying conduit, maintains one first and installs direction when element under test is sent from a delivery port with the first transport path;
One steering mechanism, makes the element under test sent from the delivery port of this conveying conduit be diverted and installs direction in one second;
One survey dish, is provided with accommodation space and accepts self-steering mechanism by the element under test come with the second transport path transfer in parallel first transport path direction with an opening.
The carrying device of 17. 1 kinds of electronic component grouping systems, in order to transport the light emitting diode element under test of lateral emitting, comprising:
One conveying conduit, is provided with a delivery port, and this element under test is transferred conduit conveying and sends from a delivery port;
One survey dish, be provided with accommodation space and accept the element under test that described delivery port sends, element under test adsorbed by negative pressure in accommodation space, and transports with the recline lower tested dish in bottom side location of accommodation space of the side of light-emitting area dorsal part.
The carrying device of 18. 1 kinds of electronic component grouping systems, in order to transport the light emitting diode element under test of lateral emitting, comprising:
One conveying conduit, is provided with a delivery port, and this element under test is transferred conduit conveying and sends from a delivery port;
One steering mechanism, is provided with the element under test that transfer portion sends to accept described delivery port, and element under test also adsorbed by negative pressure in transfer portion, and with the side of light-emitting area recline transfer portion bottom side location under transported;
One survey dish, is provided with the element under test that accommodation space is sent to accept described steering mechanism, and in the accommodation space of survey dish, keep light-emitting area dorsal part bottom side direction in accommodation space to be carried out transporting and detecting.
The carrying device of 19. 1 kinds of electronic component grouping systems, comprising:
One survey dish, is located on a table top of a board, and can do intermittent rotation by driving, periphery has circular row and lays multiple accommodation space separately;
One conveying mechanism, is positioned on described board, is provided with a conveying conduit, and conveying conduit is provided with a delivery outlet, carries out the element under test after permutation and is discharged by this delivery outlet;
One feeding mechanism, is located at described conveying mechanism and element under test is delivered into this survey and coil on the transport path of described accommodation space, can make intermittent shift reciprocately by driving;
The element under test of discharging by this delivery outlet is through the transfer of the intermittent shift reciprocately of feeding mechanism, and the accommodation space sequentially entering survey dish periphery is transported.
The carrying device of 20. electronic component grouping systems as claimed in claim 19, is characterized in that, the center that the axis of the forward and backward shift reciprocately motion path in this feeding mechanism front end is coiled by survey.
The carrying device of 21. electronic component grouping systems as claimed in claim 19, wherein, described accommodation space is respectively provided with the bottom side that leans on card center, and be positioned at the side of bottom side both sides, the wherein bottom side length comparatively side length of side, and be provided with below survey dish by the bottom side air flue extended towards card center, this air flue communicates with accommodation space.
The carrying device of 22. electronic component grouping systems as claimed in claim 19, is characterized in that, the transport path of the conveying conduit of this conveying mechanism and surveying to keep one to be greater than survey dish radius spacing between disk center, and is be close to tangent state with survey dish excircle.
The carrying device of 23. electronic component grouping systems as claimed in claim 19, it is characterized in that, also comprise a steering mechanism, be located at described conveying mechanism element under test to be delivered into this survey and coil on the transport path of described accommodation space, steering mechanism can do intermittent rotation by driving, and its periphery intervening gaps is provided with multiple transfer portion.
The carrying device of 24. electronic component grouping systems as claimed in claim 23, is characterized in that, the axis of the forward and backward shift reciprocately motion path in feeding mechanism front end is by the center of steering mechanism.
The carrying device of 25. electronic component grouping systems as claimed in claim 23, wherein, ninety degrees apart angle between this transfer portion, each transfer portion is respectively provided with opening outwardly.
The carrying device of 26. electronic component grouping systems as claimed in claim 23, it is characterized in that, this transfer portion is respectively provided with the bottom side that leans on card center, and be positioned at the side limit of bottom side both sides, the wherein bottom side length comparatively side length of side, and be provided with below steering mechanism by the bottom side air flue extended towards card center, this air flue communicates with transfer portion.
The carrying device of 27. electronic component grouping systems as claimed in claim 23, is characterized in that, the motion path of this forward and backward shift reciprocately in feeding mechanism front end is vertical with the line surveyed in disk center and steering mechanism in the heart.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
TW103208454 | 2014-05-15 | ||
TW103208454U TWM490469U (en) | 2014-05-15 | 2014-05-15 | Conveying apparatus of inspecting and sorting electronic component |
Publications (1)
Publication Number | Publication Date |
---|---|
CN204074541U true CN204074541U (en) | 2015-01-07 |
Family
ID=52167306
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201420491182.2U Expired - Fee Related CN204074541U (en) | 2014-05-15 | 2014-08-28 | Conveying device for detecting and sorting electronic components |
Country Status (2)
Country | Link |
---|---|
CN (1) | CN204074541U (en) |
TW (1) | TWM490469U (en) |
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107824681A (en) * | 2017-11-28 | 2018-03-23 | 宁波骑士马具用品制造有限公司 | A kind of horseshoe nail shaping tipping machine |
CN108919143A (en) * | 2018-04-13 | 2018-11-30 | 海宁市丁桥镇永畅知识产权服务部 | Has the electric installation in the detection system of the LED light of three pins |
CN108906668A (en) * | 2018-07-17 | 2018-11-30 | 游诚琦 | A kind of method for separating of lithium cell sorting unit |
CN109013398A (en) * | 2018-07-17 | 2018-12-18 | 游诚琦 | A kind of lithium-ion electric core test method for group matching |
CN109013399A (en) * | 2018-07-17 | 2018-12-18 | 游诚琦 | A kind of lithium cell consistency combo equipment |
CN113651079A (en) * | 2021-10-20 | 2021-11-16 | 邳州利康沃智能康复设备有限公司 | Clamping and fixing device for electronic component production |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TW201632915A (en) * | 2015-03-11 | 2016-09-16 | All Ring Tech Co Ltd | Method and device for inspecting electronic parts |
JP6673296B2 (en) * | 2016-09-23 | 2020-03-25 | 株式会社村田製作所 | Processing device, component transfer device and processing method |
-
2014
- 2014-05-15 TW TW103208454U patent/TWM490469U/en unknown
- 2014-08-28 CN CN201420491182.2U patent/CN204074541U/en not_active Expired - Fee Related
Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107824681A (en) * | 2017-11-28 | 2018-03-23 | 宁波骑士马具用品制造有限公司 | A kind of horseshoe nail shaping tipping machine |
CN107824681B (en) * | 2017-11-28 | 2024-03-19 | 宁波骑士马具用品制造有限公司 | Horseshoe nail forming and tip cutting machine |
CN108919143A (en) * | 2018-04-13 | 2018-11-30 | 海宁市丁桥镇永畅知识产权服务部 | Has the electric installation in the detection system of the LED light of three pins |
CN108906668A (en) * | 2018-07-17 | 2018-11-30 | 游诚琦 | A kind of method for separating of lithium cell sorting unit |
CN109013398A (en) * | 2018-07-17 | 2018-12-18 | 游诚琦 | A kind of lithium-ion electric core test method for group matching |
CN109013399A (en) * | 2018-07-17 | 2018-12-18 | 游诚琦 | A kind of lithium cell consistency combo equipment |
CN109013399B (en) * | 2018-07-17 | 2020-11-03 | 温州雪榕机械科技有限公司 | Lithium cell consistency matching equipment |
CN113651079A (en) * | 2021-10-20 | 2021-11-16 | 邳州利康沃智能康复设备有限公司 | Clamping and fixing device for electronic component production |
Also Published As
Publication number | Publication date |
---|---|
TWM490469U (en) | 2014-11-21 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN204074541U (en) | Conveying device for detecting and sorting electronic components | |
CN105080849A (en) | Conveying method and device for detecting and sorting electronic components | |
JP6318174B2 (en) | System and method for handling parts | |
CN105964551B (en) | Electronic component detection device | |
CN101311730A (en) | System for testing and sorting electronic components | |
CN107963429A (en) | A kind of dishes automatic material arranging device | |
CN109068665A (en) | Equipment for being put into food in pallet | |
CN105151827A (en) | Sheet material lifting, separating and feeding machine | |
JP2015065959A (en) | Egg diameter measuring device | |
TW201543046A (en) | Conveying, sorting method and apparatus of electronic component | |
US20150078865A1 (en) | Positioning apparatus and positioning method for objects | |
CN104097440B (en) | The automatic laying method of mosaic granule in a kind of multicolour combination pattern | |
CN106607340B (en) | Electronic component classification method and device based on single and double numbers | |
CN214184137U (en) | Sorting device | |
TWI419625B (en) | Luminous element sorting apparatus, and luminous element test handler | |
CN205308806U (en) | Electronic component's integral type suction nozzle and suction nozzle feeding conveyor thereof | |
JP2018073965A (en) | Component supply device and component supply system and component supply method | |
KR101479573B1 (en) | Bowl feeder for parts sorting | |
TW202031576A (en) | Material-discharging method and device especially monitoring the discharge of electronic components during test-and-screening | |
TWI722682B (en) | Electronic component transport method and equipment | |
TWI727520B (en) | Electronic component conveying method, electronic component conveying device and conveying equipment | |
CN104568960A (en) | Electronic part detection module, electronic part inspection apparatus and inspection method | |
CN105974489B (en) | Method and device for detecting electronic component classification material box | |
CN209382892U (en) | Multi-track feeding device and chip mounter | |
CN217024272U (en) | Feeding device for scattered components |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20150107 Termination date: 20180828 |
|
CF01 | Termination of patent right due to non-payment of annual fee |