CN109894375A - A kind of connection side steering between automatic more transfer dish of detection screening system - Google Patents
A kind of connection side steering between automatic more transfer dish of detection screening system Download PDFInfo
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- CN109894375A CN109894375A CN201910170031.4A CN201910170031A CN109894375A CN 109894375 A CN109894375 A CN 109894375A CN 201910170031 A CN201910170031 A CN 201910170031A CN 109894375 A CN109894375 A CN 109894375A
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- disk body
- test object
- rotation disk
- conveyer belt
- rotation
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B07—SEPARATING SOLIDS FROM SOLIDS; SORTING
- B07C—POSTAL SORTING; SORTING INDIVIDUAL ARTICLES, OR BULK MATERIAL FIT TO BE SORTED PIECE-MEAL, e.g. BY PICKING
- B07C5/00—Sorting according to a characteristic or feature of the articles or material being sorted, e.g. by control effected by devices which detect or measure such characteristic or feature; Sorting by manually actuated devices, e.g. switches
- B07C5/34—Sorting according to other particular properties
- B07C5/342—Sorting according to other particular properties according to optical properties, e.g. colour
- B07C5/3422—Sorting according to other particular properties according to optical properties, e.g. colour using video scanning devices, e.g. TV-cameras
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B07—SEPARATING SOLIDS FROM SOLIDS; SORTING
- B07C—POSTAL SORTING; SORTING INDIVIDUAL ARTICLES, OR BULK MATERIAL FIT TO BE SORTED PIECE-MEAL, e.g. BY PICKING
- B07C5/00—Sorting according to a characteristic or feature of the articles or material being sorted, e.g. by control effected by devices which detect or measure such characteristic or feature; Sorting by manually actuated devices, e.g. switches
- B07C5/02—Measures preceding sorting, e.g. arranging articles in a stream orientating
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B07—SEPARATING SOLIDS FROM SOLIDS; SORTING
- B07C—POSTAL SORTING; SORTING INDIVIDUAL ARTICLES, OR BULK MATERIAL FIT TO BE SORTED PIECE-MEAL, e.g. BY PICKING
- B07C5/00—Sorting according to a characteristic or feature of the articles or material being sorted, e.g. by control effected by devices which detect or measure such characteristic or feature; Sorting by manually actuated devices, e.g. switches
- B07C5/36—Sorting apparatus characterised by the means used for distribution
- B07C5/361—Processing or control devices therefor, e.g. escort memory
- B07C5/362—Separating or distributor mechanisms
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B07—SEPARATING SOLIDS FROM SOLIDS; SORTING
- B07C—POSTAL SORTING; SORTING INDIVIDUAL ARTICLES, OR BULK MATERIAL FIT TO BE SORTED PIECE-MEAL, e.g. BY PICKING
- B07C2501/00—Sorting according to a characteristic or feature of the articles or material to be sorted
- B07C2501/0063—Using robots
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- Engineering & Computer Science (AREA)
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- Specific Conveyance Elements (AREA)
Abstract
The present invention relates to the connection side steerings between a kind of automatic detection more transfer dish of screening system, it is characterized by comprising first detection unit (50) and second detection unit (60), object to be detected enters the second rotation disk body (600) by the connection side steering (70) from the first rotation disk body (500).Connection side steering of the invention can not only make test object be moved on the second rotation disk body from the first rotation disk body, and test object can be made to rotate an angle, allow second rotation disc perimeter take phase detection device shoot transformation angle after test object photo, the detection accuracy and precision that thus can be improved avoid the missing inspection or false retrieval that blind area generates of taking pictures.
Description
Technical field
The present invention relates to a kind of materials to detect screening system, more particularly, to a kind of automatic detection more transfer dish of screening system
Between connection side steering.
Background technique
In the development of electronic industry, due to the worldwide development trend of electronic product light and thin type, cause using such as
Screw, nut, rivet, stamping parts, also phase shape minimizes the specification of the various part such as plastic parts even motor of camera.One
As for, part that bad or off-gauge requires can not be except in the case of normal mounting in addition to will cause, and there are also installations by force to make
Used time can damage the problem of other parts, and therefore, high-volume components used at present all can after completing the production operations for forming
Using the good bad selective mechanisms of quality, to maintain good fastening quality and the efficiency between product component, and product is reduced
Because fastener extremely caused by fraction defective probability.
When distinguishing non-defective unit and defective products for huge number of different types of part in the prior art, have been carried out
Automatic detection, such as: existing glass plate detects screening system, it is main include rotation glass feed table, vibrating disk it is defeated
Material device, guiding device, optical fiber positioning device, multiple takes phase detection device, qualified product blanking device and not at optical fiber positioning device
Qualified product blanking device.Material part is sent by vibrating disk feeding device to the glass feed table of rotation, and the glass of rotation is sent
Charging tray by material part to be detected pass sequentially through guiding device, optical fiber positioning device and it is multiple take phase detection device, guiding dress
It sets and each material part is lined up, optical fiber positioning device carries out positioning to each material part and by each material part
Location information is sent to computer and is stored, multiple to take phase detection device from different directions to the material part of each movement
Take pictures, and be sent to computer carry out picture synthesis, computer judge the material part in appearance whether with standard
Qualified material part is identical or the degree of approximation reaches setting value.Computer is judged as that qualified material part is filled by qualified product blanking
Output is set, computer is judged as that underproof material part is exported by rejected product blanking device or carried out by glass rotary disc
Detection confirmation again.
But there is also following technological deficiencies for existing detection screening system itself:
(1) existing detection screening system usually only uses a glass feed table, and takes guiding device, optical fiber positioning device, more
It is a that phase detection device, qualified product blanking device and rejected product blanking device is taken to require to set along glass feed table circumferencial direction
It sets and is distributed, thus take phase detection device that limited amount is set, be unable to satisfy the requirement of high-precision, high standard detection.
(2) in existing detection screening system test object enter it is static relative to glass feed table after glass feed table, no
The position angle of itself can be changed, so that taking the image of phase detection device acquisition part single, part transformation angle cannot be acquired
Image, thus be possible to can not all useful informations of acquisition testing object.
(3) either non-defective unit blanking device or defective products blanking device in existing detection screening system, are all to pass through height
Body of calming the anger will test object and blow off glass feed table, but for some highly sensitive high-precision test objects, such as: mobile phone is taken the photograph
As head accessory, dust or impurity may be blown into test object by air blowing, caused test object that can not work even and damaged.
(4) either non-defective unit blanking device or defective products blanking device in existing detection screening system, to what is detected
Test object can not carry out orderly pile, thus will cause subsequent a large amount of artificial investments.
(5) feeding device in existing detection screening system is to use vibrating disk feeding mostly, is magnetic, packs to some bands
Good and high-precision piece product can not use vibrating disk feeding.The some cameras of such as mobile phone and motor accessory.
Summary of the invention
The present invention devises a kind of automatic detection screening system of more transfer dish, solves following technical problem: (1) existing
Detection screening system usually only uses a glass feed table, and guiding device, optical fiber positioning device, multiple take is taken mutually to detect dress
Set, qualified product blanking device and rejected product blanking device require to be arranged along glass feed table circumferencial direction and be distributed, because
And take phase detection device that limited amount is set, it is unable to satisfy the requirement of high-precision, high standard detection.(2) existing detection screening system
Test object enters static relative to glass feed table after glass feed table in system, will not change the position angle of itself, so that
It takes the image of phase detection device acquisition part single, the image of part transformation angle cannot be acquired, thus be possible to not acquire
All useful informations of test object.
In order to solve above-mentioned technical problem, present invention employs following scheme:
Connection side steering between a kind of automatic more transfer dish of detection screening system, it is characterised in that: single including the first detection
First (50) and second detection unit (60), the multiple of the first detection unit (50) take phase detection device by the first of rotation
Object to be detected is taken pictures in rotation disk body (500), and the multiple of second detection unit (60) take phase detection device to pass through
Object to be detected is taken pictures in second rotation disk body (600) of rotation, and object to be detected passes through from the first rotation disk body (500)
The connection side steering (70) enters the second rotation disk body (600).
Further, the connection side steering (70) includes conveyer belt (700), and conveyer belt (700) setting is transmitting
On band support frame (704), the conveyer belt (700) is equipped with the first guide pad (701) with the first rotation disk body (500) connecting pin,
First guide pad (701) includes the first guiding bevel edge (702) and the first guiding straight flange (703), and the first guiding bevel edge (702) plays
The test object changed course first rotated on disk body (500) enters on the conveyer belt (700), the first guiding straight flange (703)
Ensure that test object moves linearly on the conveyer belt (700).
Further, the conveyer belt (700) and second rotation disk body (600) connecting pin are equipped with the second guide pad
(705), second guide pad (705) includes the second guiding straight flange (706), the second guiding bevel edge (707) and deflecting bevel edge
(708), second guiding straight flange (706) ensures that test object moves linearly on the conveyer belt (700), and described second leads
To bevel edge (707) test object is deviated to second rotation disk body (600) direction, the deflecting bevel edge (708) makes
Test object enters back into after rotating an angle into the second rotation disk body (600).
Further, 90 ° be the angle ranging from.
Further, the drive mechanism of the conveyer belt (700) include motor (709), driving wheel (710), belt (711) and
The rotor of driving wheel (712), the motor (709) is connect with the driving wheel (710), and the driving wheel (710) passes through described
Belt (711) is connect with the driving wheel (712), and a belt pulley of the driving wheel (712) and the conveyer belt (700) is logical
Cross connection axis connection.
The automatic detection screening system of more transfer dish has beneficial below for existing detection screening system
Effect:
(1) present invention, which changes tradition, to use a rotation disk body to transmit measurand, a rotation disk body surrounding space
It is limited to cause to take phase detection device that limited amount is arranged, and more different angles can not be arranged to take pictures test object, thus
The present invention can theoretically arrange by the combinations of multiple rotation disk bodies and any number of take phase detection device, it is ensured that
Detect quality.
(2) connection side steering of the invention can not only make test object be moved to second from the first rotation disk body
It rotates on disk body, and test object can be made to rotate an angle, so that the second rotation disc perimeter takes phase detection device
Test object photo after transformation angle can be shot, thus the detection accuracy and precision that can be improved, avoid blind area of taking pictures
The missing inspection of generation or false retrieval.
(3) handling equipment of the invention is to carry out loading and unloading to test object by mechanical grip, when avoiding feeding
Damage of the vibration that vibrating disk generates to test object, test object can be blown to for unwanted dust by blowing when also avoiding blanking
In.
Detailed description of the invention
Fig. 1: the schematic perspective view of the automatic detection screening system of the more transfer dish of the present invention;
Fig. 2: the top view of the automatic detection screening system of the more transfer dish of the present invention;
Fig. 3: the schematic perspective view of side steering is connected in the present invention;
Fig. 4: clamp device structure the first schematic diagram in handling equipment of the present invention;
Fig. 5: second of structural schematic diagram of blanking clamp device in handling equipment of the present invention;
Fig. 6: the schematic perspective view of handling equipment of the present invention;
Fig. 7: the schematic diagram of internal structure of handling equipment of the present invention;
Fig. 8: the structural schematic diagram of feeding guiding device in the present invention.
Description of symbols:
10-feeding devices;100-motors;101-horizontal shifting platforms;102-move horizontally bracket;103-the first is vertical
Mobile mechanism;104-linear motion clamping jaws;105-clamping jaw cylinders;106-the second vertical movement mechanism;The rotation of 107-clamping jaws
Cylinder;108-rotary motion clamping jaws;109-upper gripper jaws;110-lower clamping jaws;111-supporting supports;
112-brackets;113-linear motion clamping jaws;114-clamping jaw cylinders;115-vertical moving cylinders;116-move horizontally
Cylinder;
120-cabinets;121-pallets;122-tray supporters;123-mobile brackets;124-first servo motors;125-drag
Chain;126-the second servo motor;127-loading and unloading areas;
20-the first blanking device;
30-the second blanking device;
40-third blanking devices;
50-first detection units;500-the first rotation disk body;501-feedings rotate disk body;502-feeding guiding devices;
503-synchronous guiding devices;504-guiding devices;505-optical fiber positioning devices;506-the first takes phase detection device;507—
Second takes phase detection device;508-thirds take phase detection device;509-the four takes phase detection device;510-the five takes and mutually examines
Survey device;511-blanking clamp devices;512-blankings rotate disk body;
60-second detection units;600-the second rotation disk body;601-synchronous guiding devices;602-guiding devices;603—
6th takes phase detection device;604-the seven takes phase detection device;605-the eight takes phase detection device;606-the nine takes and mutually examines
Survey device;607-the ten takes phase detection device;608-the ten one takes phase detection device;609-the ten two takes phase detection device;
610-the ten three takes phase detection device;611-the ten four takes phase detection device;612-non-defective unit blanking clamp devices;613-is good
Product blanking rotates disk body;614-defective products blankings rotate disk body;615-defective products blanking clamp devices;
70-connection side steerings;700-conveyer belts;701-the first guide pad;702-the first guiding bevel edge;703-the first
It is oriented to straight flange;704-conveyer belt support frames;705-the second guide pad;706-the second guiding straight flange;707-the second guiding is oblique
Side;708-deflecting bevel edges;709-motors;710-driving wheels;711-belts;712-driving wheels.
Specific embodiment
Below with reference to Fig. 1 to Fig. 8, the present invention will be further described:
As shown in Figure 1, the automatic detection screening system of the more transfer dish of the present invention, including feeding device 10, the first blanking device 20,
Second blanking device 30, third blanking device 40, first detection unit 50 and second detection unit 60.
Feeding device 10 imports object to be detected in first rotation disk body of first detection unit 50, the first rotation disk body
Multiple in surrounding first detection unit 50 take phase detection device to take pictures from different directions to test object, to be detected right
The second rotation as entering second detection unit 60 by the bindiny mechanism between first detection unit 50 and second detection unit 60
Rotary case, multiple in second detection unit 60 take phase detection device also from different directions to detection around the second rotation disk body
Object is taken pictures, and computer carries out analyzing and determining that object to be detected is non-defective unit according to multiple photos for taking phase detection device to shoot
Or defective products, the defective products of first detection unit detection carry out blanking, second detection unit detection by third blanking device 40
Defective products by the second blanking device 30 carry out blanking, second detection unit detection non-defective unit by the first blanking device 20 into
Row blanking.
First inventive point of automatic detection screening system of the more transfer dish of the present invention is: one can only be used by changing tradition
A rotation disk body transmits measurand, and a rotation disk body surrounding space is limited to be caused to take phase detection device that limited amount is arranged,
And more different angles can not be arranged to take pictures test object, thus the present invention can by the combinations of multiple rotation disk bodies,
It can theoretically arrange and any number of take phase detection device, it is ensured that detection quality.
50 periphery of first detection unit in Fig. 1 is equipped with third blanking device 40, for first detection unit 50 just
The test object for being judged as defective products can be by 40 blanking of third blanking device, without entering second detection unit 60.
As shown in Fig. 2, first detection unit 50 of the invention includes that feeding rotates disk body 501,502 and of feeding guiding device
First rotation disk body 500, test object enter after feeding rotation disk body 501 through feeding guiding device 502 or mechanical grip machine
It is entered under the action of structure in the first rotation disk body 500.
First rotation disk body 500 rotates under the action of motor and each test object is made to pass sequentially through synchronization steering dress
It sets 503, guiding device 504, optical fiber positioning device 505 and multiple takes phase detection device.Synchronous guiding device 503, which plays, will test
Object imports in the first rotation 500 track of disk body of setting comprising lower directive wheel, upper first driving wheel, upper second driving wheel
And lower third driving wheel, lower directive wheel and upper first driving wheel connects axis connection by first, upper second driving wheel and lower the
Three driving wheels are driven between upper first driving wheel and upper second driving wheel by belt, lower third by the second connection axis connection
The first rotation disk body 500 that driving wheel is rotated drives, and lower directive wheel will test object and be arranged according to the track of setting, by
In the driving source of lower directive wheel be the first rotation disk body 500 so that the two can move synchronously, it is ensured that test object is the
One rotation 500 even running of disk body.Optical fiber positioning device 504 is numbered each test object and identifies for computer.
It is multiple that phase detection device is taken to take phase detection device 506, second that phase detection device 507, third is taken to take phase including first
Detection device the 508, the 4th takes phase detection device 509 and the 5th to take phase detection device 510, and phase detection device is each taken to can be phase
It takes pictures for the front of test object, rear, left, right, top, lower section, internal perisporium or periphery wall to test object,
And each angle shot takes phase detection device to place no sequencing.If when from below to photographs photo, first
Rotation disk body 500 should be transparent material.
First detection unit 50 is additionally provided with blanking clamp device 511 and blanking rotation disk body 512, blanking clamp device 511
The defective products test object clamping first rotated on disk body 500 rotates in disk body 512 to blanking, and blanking rotates in disk body 512
Defective products test object by 40 blanking of third blanking device.
As shown in Fig. 2, second detection unit 60 of the invention include second rotation disk body 600, synchronous guiding device 601,
Guiding device 602, multiple takes phase detection device, non-defective unit blanking clamp device 612, non-defective unit blanking rotating disk at optical fiber positioning device
Body 613, defective products blanking rotation disk body 614 and defective products blanking clamp device 615.Object to be measured passes through the first rotation disk body
500 and after the second bindiny mechanism between rotation disk body 600 enters the second rotation disk body 600, then pass sequentially through synchronization steering
Device 601, guiding device 602, optical fiber positioning device and it is multiple take phase detection device, eventually by non-defective unit blanking clamp device
612 enter product blanking rotation disk body 613, or enter defective products blanking rotating disk by defective products blanking clamp device 615
Body 614.
Synchronous guiding device 601 plays in the second rotation 600 track of disk body that will test object importing setting comprising under
Directive wheel, upper first driving wheel, upper second driving wheel and lower third driving wheel, lower directive wheel and upper first driving wheel pass through the
One connection axis connection, upper second driving wheel and lower third driving wheel pass through second and connect axis connection, upper first driving wheel and upper the
It is driven between two driving wheels by belt, the second rotation disk body 600 that lower third driving wheel is rotated drives, and lower directive wheel will be examined
It surveys object to be arranged according to the track of setting, since the driving source of lower directive wheel is the second rotation disk body 600, so that two
Person can move synchronously, it is ensured that test object rotates 600 even running of disk body second.
It is multiple that phase detection device is taken to take phase detection device the 603, the 7th that phase detection device the 604, the 8th is taken to take phase including the 6th
Detection device 605, the 9th take phase detection device 606, the tenth that phase detection device 607, the 11st is taken to take phase detection device 608,
12 take phase detection device the 609, the 13rd that phase detection device the 610, the 14th is taken to take phase detection device 611.It each takes and mutually detects
Device can be the front relative to test object, rear, left, right, top, lower section, internal perisporium or periphery wall to detection
Object is taken pictures, and each angle shot takes the phase detection device to place no sequencing.If clapped upwards from below
When taking the photograph photo, the second rotation disk body 600 should be transparent material.
The non-defective unit test object that non-defective unit blanking clamp device 612 rotates on disk body 600 by second, which is clamped to non-defective unit blanking, revolves
Rotary case 613, defective products blanking clamp device 615 rotate the defective products test object on disk body 600 for second and clamp to bad
Product blanking rotates in disk body 614.
As shown in figure 3, the bindiny mechanism between the first rotation disk body 500 and the second rotation disk body 600 is connection deflecting machine
Structure 70, the connection side steering 70 can not only make test object be moved to the second rotating disk from the first rotation disk body 500
On body 600, and test object can be made to rotate an angle, so that the second rotation 600 periphery of disk body takes phase detection device
Test object photo after transformation angle can be shot, thus the detection accuracy and precision that can be improved, avoid blind area of taking pictures
The missing inspection of generation or false retrieval, this is the two of inventive point of the invention.
The connection side steering 70 includes conveyer belt 700, and conveyer belt 700 is arranged on conveyer belt support frame 704, conveyer belt
700 and first rotate 500 connecting pin of disk body equipped with the first guide pad 701, and the first guide pad 701 includes the first guiding bevel edge 702
With the first guiding straight flange 703, the first guiding bevel edge 702 plays the test object changed course rotated on disk body 500 by first and enters
On conveyer belt 700, the first guiding straight flange 703 ensures that test object moves linearly on conveyer belt 700.
Conveyer belt 700 and the second rotation 600 connecting pin of disk body are equipped with the second guide pad 705, and the second guide pad 705 includes the
Two guiding straight flanges 706, second are oriented to bevel edge 707 and deflecting bevel edge 708, and the second guiding straight flange 706 ensures that test object is passing
It send and moves linearly on band 700, the second guiding bevel edge 707 deviates test object to the second rotation 600 direction of disk body, and deflecting is oblique
Side 708 is entered back into after making test object rotate an angle into the second rotation disk body 600, which is 90 °, or its
His angle value.
The drive mechanism of conveyer belt 700 includes motor 709, driving wheel 710, belt 711 and driving wheel 712, motor 709
Rotor is connect with driving wheel 710, and driving wheel 710 is connect by belt with driving wheel 712, and the one of driving wheel 712 and conveyer belt 700
A belt pulley passes through connection axis connection.
As shown in figure 4, feeding device 10 and blanking device are consistent in mechanical structure, the difference of the two is blanking
It is the inverse process of feeding.Feeding device of the invention is to carry out loading and unloading to test object by mechanical grip, avoids feeding
When damage of the vibration to test object that generates of vibrating disk, test object can be blown to for unwanted dust by blowing when also avoiding blanking
In, this is the three of inventive point of the present invention.
Specifically, the clamp device of feeding device 10 includes linear motion clamping jaw 104, and linear motion clamping jaw 104 passes through
Clamping jaw cylinder 105 realizes crawl and puts down test object, which can be realized horizontally and vertically
Move freely, horizontal direction is mobile by horizontally moving device realization, and horizontally moving device includes horizontal shifting platform 101
With move horizontally bracket 102, clamping jaw, which is mounted on, to be moved horizontally on bracket 102, moves horizontally bracket 102 in the effect of motor 100
Under the movement of horizontal direction is done relative to horizontal shifting platform 101.Its vertical direction is mobile to pass through the first vertical movement mechanism 103
It realizes, the first vertical movement mechanism 103, which is mounted on, to be moved horizontally on bracket 102, and the first vertical movement mechanism 103 is cylinder,
Direct acting linear movement clamping jaw 104 makes it do the movement of vertical direction.
In view of a surface of some test objects (such as mobile phone camera motor) is non-planar, which cannot be with rotation
Otherwise basin body contact will lead to take mutually is distorted, so the surface should be upward.The test object is placed on care feed tray right and wrong simultaneously
It flats down, thus needs a rotary motion clamping jaw 108 by the test object not flatted down by rotating so that it is uneven
It is placed into again after up on rotation basin body or carries out contrary operation when blanking.
Rotary motion clamping jaw 108 includes two clamp arm, and two clamp arm upper ends form upper gripper jaw 109, two clamp arm lower end shapes
At lower clamping jaw 110, clamping jaw rotary pneumatic 107 makes upper gripper jaw 109 and lower clamping jaw 110 work asynchronously by acting on two clamp arm, together
When grab test object, or put down test object simultaneously, improve work efficiency.
Rotary motion clamping jaw 108 realizes the movement of tapered direction by the second vertical movement mechanism 106, and second vertically moves
Mechanism 106 can be cylinder or motor.
Linear motion clamping jaw 104 and rotary motion clamping jaw 108 are all connect with supporting support 111, and supporting support 111 is mounted on
On the mounting platform of first detection unit 50 and/or second detection unit 60.
Workflow is as follows: when feeding, linear movement clamping jaw 104 is first moved to above feeder, is then declined from charging tray
A test object is clamped in box, then vertical ascent, be moved horizontally to the top of rotary motion clamping jaw 108, linear movement folder
The decline of pawl 104 will test object and be placed on the upper gripper jaw 109 of rotary motion clamping jaw, and rotary motion clamping jaw rotates 180 °, so that
Test object also changes 180 ° and is moved to lower section from top, and makes test object uneven up.Upper gripper jaw 109 is opened,
So that test object is fallen on feeding rotation disk body 501.When blanking, whole flow process is opposite.
As shown in figure 5, blanking clamp device 511, non-defective unit blanking clamp device 612 and defective products blanking clamp device
615, their structure is identical and to act on also identical be all by non-defective unit or defective products from the first rotation disk body or the second rotating disk
Body is transferred in blanking rotation disk body.
It includes linear motion clamping jaw 113, and linear motion clamping jaw 113 carries out grabbing for test object by clamping jaw cylinder 114
It takes or puts down, linear motion clamping jaw 113 realizes the movement of horizontal direction by horizontal moving cylinder 116, and move along a straight line clamping jaw 113
The movement of vertical direction is realized by vertical moving cylinder 115.
Horizontal moving cylinder 116 is connected to 112 upper end of bracket, 112 lower end of bracket be fixed on first detection unit 50 and/or
On the mounting platform of second detection unit 60.
As shown in fig. 6, the cabinet 120 of feeding device 10 is equipped with tray supporter 122,122 inner space structure of tray supporter
At the space that stacks of pallet 121, communicated inside 122 inner space of tray supporter and cabinet 120.
It is set on cabinet 120 there are two tray supporter 122, You Ge loading and unloading area 127 between two tray supporters 122, up and down
Expect that a pallet 121 is placed in area 127, pallet 121 is for placing test object.
As shown in fig. 7, being equipped with pallet mobile mechanism in the cabinet 120 of feeding device 10, pallet mobile mechanism includes first
Servo motor 124, the second servo motor 126 and mobile bracket 123.
First servo motor 124 by screw rod act on mobile bracket 123 mobile bracket 123 is done in vertical direction,
Lower movement simultaneously makes the pallet 121 on mobile bracket 123 be placed on or leave on tray supporter 122 or pallet 121 is entered
Or leave the loading and unloading area 127 of product.Second servo motor 126 acts on mobile bracket 123 by an other screw rod and to move
Bracket 123 moves left and right the underface to 122 underface of tray supporter or loading and unloading area 127 in the horizontal direction.
As shown in figure 8, feeding guiding device 502 includes positioned at the first guide part A of the first rotation disk body 500 and positioned at upper
Second guide part B, the second guide part B of material rotation disk body 501 is for will test object deflecting and enter a rotation disk body A
On, the first guide part A and in addition rotation disk body B are tangent to ensure that test object is run according to the track of setting.
Above in conjunction with attached drawing, an exemplary description of the invention, it is clear that realization of the invention is not by aforesaid way
Limitation, as long as use the inventive concept and technical scheme of the present invention carry out various improvement, or it is not improved will be of the invention
Conception and technical scheme directly apply to other occasions, be within the scope of the invention.
Claims (5)
1. the connection side steering between a kind of automatic detection more transfer dish of screening system, it is characterised in that: including the first detection
Unit (50) and second detection unit (60), the multiple of the first detection unit (50) take phase detection device by the of rotation
Object to be detected is taken pictures in one rotation disk body (500), and the multiple of the second detection unit (60) take phase detection device logical
Object to be detected is taken pictures in the second rotation disk body (600) for crossing rotation, and object to be detected is logical from the first rotation disk body (500)
The connection side steering (70) is crossed into the second rotation disk body (600).
2. detecting the connection side steering between the more transfer dish of screening system automatically according to claim 1, it is characterised in that:
The connection side steering (70) includes conveyer belt (700), and the conveyer belt (700) is arranged on conveyer belt support frame (704),
The conveyer belt (700) is equipped with the first guide pad (701) with the first rotation disk body (500) connecting pin, the first guide pad (701) packet
The first guiding bevel edge (702) and the first guiding straight flange (703) are included, the first guiding bevel edge (702), which is played, rotates disk body for first
(500) the test object changed course on enters on the conveyer belt (700), and the first guiding straight flange (703) ensures that test object exists
It moves linearly on the conveyer belt (700).
3. the connection side steering between the automatic more transfer dish of detection screening system according to claim 1 or claim 2, feature exist
In: the conveyer belt (700) and second rotation disk body (600) connecting pin are equipped with the second guide pad (705), and described second leads
It include the second guiding straight flange (706), the second guiding bevel edge (707) and deflecting bevel edge (708) to block (705), described second leads
Ensure that test object moves linearly on the conveyer belt (700) to straight flange (706), second guiding bevel edge (707) makes
Test object is deviated to second rotation disk body (600) direction, and the deflecting bevel edge (708) makes test object rotate one jiao
It is entered back into after degree into the second rotation disk body (600).
4. detecting the connection side steering between the more transfer dish of screening system automatically according to claim 3, it is characterised in that:
It the angle ranging from 90 °.
5. detecting the connection deflecting machine between the more transfer dish of screening system described in any one of -4 automatically according to claim 1
Structure, it is characterised in that: the drive mechanism of the conveyer belt (700) include motor (709), driving wheel (710), belt (711) and
The rotor of driving wheel (712), the motor (709) is connect with the driving wheel (710), and the driving wheel (710) passes through described
Belt (711) is connect with the driving wheel (712), and a belt pulley of the driving wheel (712) and the conveyer belt (700) is logical
Cross connection axis connection.
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CN201910170031.4A CN109894375B (en) | 2019-03-07 | 2019-03-07 | Connecting and direction-changing mechanism among multiple conveying discs of automatic detection and screening system |
CN202010415398.0A CN111715558B (en) | 2019-03-07 | 2019-03-07 | Automatic detection and screening system with multiple conveying discs |
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Also Published As
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CN111715558A (en) | 2020-09-29 |
CN111715558B (en) | 2022-11-29 |
CN109894375B (en) | 2020-04-03 |
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