CN109081104A - feeding method and device - Google Patents
feeding method and device Download PDFInfo
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- CN109081104A CN109081104A CN201710641075.1A CN201710641075A CN109081104A CN 109081104 A CN109081104 A CN 109081104A CN 201710641075 A CN201710641075 A CN 201710641075A CN 109081104 A CN109081104 A CN 109081104A
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- Prior art keywords
- transfer
- feeding device
- processed
- discharge mechanism
- feeding
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- 238000000034 method Methods 0.000 title claims abstract description 31
- 230000007246 mechanism Effects 0.000 claims abstract description 234
- 238000012546 transfer Methods 0.000 claims abstract description 147
- 238000012545 processing Methods 0.000 claims abstract description 63
- 239000011159 matrix material Substances 0.000 claims abstract description 14
- 239000000463 material Substances 0.000 claims abstract description 8
- 238000007599 discharging Methods 0.000 claims abstract description 5
- 230000032258 transport Effects 0.000 claims description 29
- 239000000284 extract Substances 0.000 claims description 14
- 238000006073 displacement reaction Methods 0.000 claims description 10
- 230000005540 biological transmission Effects 0.000 claims description 6
- 230000007723 transport mechanism Effects 0.000 claims description 5
- 238000003491 array Methods 0.000 claims description 3
- 230000008569 process Effects 0.000 claims description 2
- 238000010586 diagram Methods 0.000 description 9
- 239000000758 substrate Substances 0.000 description 6
- 230000003028 elevating effect Effects 0.000 description 5
- NJPPVKZQTLUDBO-UHFFFAOYSA-N novaluron Chemical compound C1=C(Cl)C(OC(F)(F)C(OC(F)(F)F)F)=CC=C1NC(=O)NC(=O)C1=C(F)C=CC=C1F NJPPVKZQTLUDBO-UHFFFAOYSA-N 0.000 description 5
- 230000002950 deficient Effects 0.000 description 4
- 230000008901 benefit Effects 0.000 description 3
- 230000003321 amplification Effects 0.000 description 2
- 238000000605 extraction Methods 0.000 description 2
- 239000000203 mixture Substances 0.000 description 2
- 238000003199 nucleic acid amplification method Methods 0.000 description 2
- 238000001179 sorption measurement Methods 0.000 description 2
- 238000010521 absorption reaction Methods 0.000 description 1
- 230000009471 action Effects 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 230000007423 decrease Effects 0.000 description 1
- 238000013461 design Methods 0.000 description 1
- 238000007689 inspection Methods 0.000 description 1
- 239000002184 metal Substances 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 238000002360 preparation method Methods 0.000 description 1
- 230000000630 rising effect Effects 0.000 description 1
- 238000000926 separation method Methods 0.000 description 1
- 238000004904 shortening Methods 0.000 description 1
- 239000007787 solid Substances 0.000 description 1
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G47/00—Article or material-handling devices associated with conveyors; Methods employing such devices
- B65G47/74—Feeding, transfer, or discharging devices of particular kinds or types
- B65G47/90—Devices for picking-up and depositing articles or materials
- B65G47/91—Devices for picking-up and depositing articles or materials incorporating pneumatic, e.g. suction, grippers
- B65G47/914—Devices for picking-up and depositing articles or materials incorporating pneumatic, e.g. suction, grippers provided with drive systems incorporating rotary and rectilinear movements
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G37/00—Combinations of mechanical conveyors of the same kind, or of different kinds, of interest apart from their application in particular machines or use in particular manufacturing processes
- B65G37/02—Flow-sheets for conveyor combinations in warehouses, magazines or workshops
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G47/00—Article or material-handling devices associated with conveyors; Methods employing such devices
- B65G47/22—Devices influencing the relative position or the attitude of articles during transit by conveyors
- B65G47/26—Devices influencing the relative position or the attitude of articles during transit by conveyors arranging the articles, e.g. varying spacing between individual articles
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G47/00—Article or material-handling devices associated with conveyors; Methods employing such devices
- B65G47/74—Feeding, transfer, or discharging devices of particular kinds or types
- B65G47/90—Devices for picking-up and depositing articles or materials
- B65G47/901—Devices for picking-up and depositing articles or materials provided with drive systems with rectilinear movements only
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G49/00—Conveying systems characterised by their application for specified purposes not otherwise provided for
- B65G49/05—Conveying systems characterised by their application for specified purposes not otherwise provided for for fragile or damageable materials or articles
- B65G49/06—Conveying systems characterised by their application for specified purposes not otherwise provided for for fragile or damageable materials or articles for fragile sheets, e.g. glass
- B65G49/061—Lifting, gripping, or carrying means, for one or more sheets forming independent means of transport, e.g. suction cups, transport frames
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Specific Conveyance Elements (AREA)
Abstract
The invention relates to a feeding method and a device, comprising the following steps: providing a feeding device in which: arranging elements to be processed on a carrying disc in a matrix arrangement, and carrying the carrying disc by a first bin; the components to be processed are taken by a first transfer mechanism and transferred one by one, and are individually and independently carried one by one in a first discharging mechanism; the element to be processed in the first discharging mechanism is extracted by a second transfer mechanism and moved out of the feeding device to a processing host machine for processing; therefore, the elements to be processed can be transferred from the whole group which is arranged in a plurality of matrixes in the carrying disc to the arrangement and the transportation of individual independent elements so as to supply materials to the processing host.
Description
Technical field
The invention relates to a kind of method of feeding and device, espespecially a kind of system for being used in element and element and being combined
Cheng Zhong, to provide method of feeding and the device of element to be combined.
Background technique
The type of general electronic component is extensive, is so often had based on necessary demand by two kinds or more of electronic component combination
Person, such as a flexible electric circuit board (Flexible substrate or flexible printed wiring board are pasted on a substrate
(Flexible Print Circuit, FPC)).The applying method of flexible electric circuit board is pasted on such substrate, prior art is as in
" the element transport method and device of electronic component fitting processing procedure " Patent Case of state's Taiwan Patent bulletin number I546234, and in
State's Taiwan Patent announces " the element transport method and device of fitting processing procedure " Patent Case of number I567011, which adopts
First and second element is respectively placed in different load plates, and transports two load plates respectively with two conveying flow paths, then will be wherein on a load plate
First element transport to being bonded with second element on another load plate.
Summary of the invention
But the prior art disclosed by the I546234 and I567011 is only applicable to first element, second element is being bonded
It is preceding to be all loaded into load plate with matrix arrangement, and transport two load plates respectively with two conveying flow paths, then by the on a wherein load plate
One element is transported to the fitting operation being bonded on another load plate with second element, when (such as second yuan of one of them element
Part) when must be bonded in fitting with individually being picked, transported by each element with matrix arrangement and with load plate then uncomfortable
With;It has been usual operation that element as only is transported with matrix arrangement and with load plate, therefore, how by load plate with matrix
The material of arrangement, supplied to the operation area in the processing host being bonded, is one extremely to be solved in a manner of individually being picked
Project.
Therefore the purpose of the present invention, being to provide a kind of allows element to be processed by making matrix in load plate with multiple
The whole group conveying of arrangement is converted into the arrangement conveying of individual independent components, with the feed being fed to processing host.
Allow element to be processed by making matrix in load plate with multiple it is another object of the present invention to provide a kind of
The whole group conveying of arrangement is converted into the arrangement conveying of individual independent components, with the feeding device being fed to processing host.
It is still a further object of the present invention is to provide a kind of to execute the device such as the method for feeding.
The method of feeding of purpose according to the present invention, comprising: a kind of method of feeding a, comprising: feeding device is provided, in the confession
Material device in execute: so that element to be processed is placed in a load plate with matrix arrangement, and make the load plate by one first feed bin mechanism into
Row conveying;The element for keeping this to be processed is extracted and transfer one by one by one first transfer mechanism, and is in one first discharge mechanism
Independently mode is transported one by one individually;The element for keeping this in the first discharge mechanism to be processed extracted by one second transfer mechanism and
It removes and is processed outside the feeding device to a processing host.
The feeding device of another object according to the present invention, comprising: be equipped on a board table top: one first feed bin mechanism,
For putting and transporting load plate, which is equipped with element to be processed with matrix arrangement;One first discharge mechanism is equipped with multiple the
One positioning part, for putting the element to be processed;One first transfer mechanism is equipped with the first transfer head, which can
The element to be processed in first feed bin is extracted, and is displaced inter-agency in the first feed bin mechanism and the first discharge;One second
Transfer mechanism, is equipped with the second transfer head, which can extract the element to be processed in first discharge mechanism and go forward side by side
Line position is moved.
The feeding device of a further object according to the present invention, comprising: to execute the device such as the method for feeding.
The method of feeding of the embodiment of the present invention and device, since the feeding device can be set as one first board, to and make
For the second board processing host phase juxtaposition and provide processing host the element to be processed, therefore can independently produce and to any
Processing host is fed;In addition, by the first feed bin mechanism the load plate conveying, first transfer mechanism conveying transfer,
The element arrangements conveying to be processed of first discharge mechanism, allow the element to be processed by the load plate with multiple
The whole group conveying for making matrix arrangement is converted into the arrangement conveying of individual independently elements;And not only by second transfer mechanism
It can be bonded processing host is transported in the conveying one by one of individual independent elements, while can will complete the finished product of processing
It transports back in the feeding device and collects again, make entirely to be fed operation automation and promote processing benefit.
Detailed description of the invention
For the above objects, features and advantages of the present invention can be clearer and more comprehensible, below in conjunction with attached drawing to tool of the invention
Body embodiment elaborates, in which:
Fig. 1 is the stereoscopic schematic diagram that element is placed in load plate in the embodiment of the present invention.
Fig. 2 is the schematic top plan view that each mechanism of feeding device is configured at board table top in the embodiment of the present invention.
Fig. 3 is the stereoscopic schematic diagram of the first feed bin mechanism and the first transfer mechanism in the embodiment of the present invention.
Fig. 4 is the perspective exploded view of the first feed bin mechanism in the embodiment of the present invention.
Fig. 5 is the transfer mechanism amplification stereoscopic schematic diagram of the first feed bin mechanism in the embodiment of the present invention.
Fig. 6 is the side stereoscopic schematic diagram of the first transfer mechanism in the embodiment of the present invention.
Fig. 7 is the other side stereoscopic schematic diagram of the first transfer mechanism in the embodiment of the present invention.
Fig. 8 is the three-dimensional signal of the first discharge mechanism in the embodiment of the present invention, the second discharge mechanism and third transfer mechanism
Figure.
Fig. 9 is that the amplification of the third transfer head part of the first discharge mechanism and third transfer mechanism is illustrated in the embodiment of the present invention
Figure.
Figure 10 is the perspective exploded view of the first discharge mechanism in the embodiment of the present invention.
Figure 11 is the stereoscopic schematic diagram of an angle of the second transfer mechanism in the embodiment of the present invention.
Figure 12 is the stereoscopic schematic diagram of another angle of the second transfer mechanism in the embodiment of the present invention.
Figure 13 is feeding device and the processing juxtaposed schematic diagram of host in the embodiment of the present invention.
Figure 14 is the second transfer head transport method schematic diagram of the second transfer mechanism in the embodiment of the present invention.
Component label instructions are as follows in figure:
A element A1 load plate
A11 embedding the first buckle of cave A12 portion
A13 the second buckle portion A14 third buckle portion
The embedding ditch A16 rescinded angle of A15
A17 protruding pin A18 shrinkage pool
B feeding device B1 board table top
B2 board the first feed bin of side C mechanism
C1 is for panel C11 for plate rail
C111 hollow out section C112 skeleton frame
C113 stand C114 load plate section
C115 load plate section C116 clamping piece
C117 actuator C2 closing quotation area
C21 closing quotation frame C211 hollow out section
C212 skeleton frame C213 stand
C214 load plate section C215 load plate section
C216 block key C3 transfer area
The side C4 seat C41 mobile space
C42 slideway C43 sliding rail
C44 slide C45 belt
C46 runner C47 runner
C48 actuator C49 holding box
C5 transfer mechanism C51 fixture
C511 pawl C512 sliding rail
C513 moving part C514 actuator
C6 elevating mechanism C61 pedestal
C62 lifting platform C621 base
C622 base C63 actuator
D the first discharge mechanism the first positioning part of D1
The positioning region the D11 positioning region D12
D2 transports 3 third positioning part of space D
The positioning region the D31 positioning region D32
The side D4 seat D41 jig seat
D5 transport mechanism D51 sliding rail
D52 slide D53 actuator
D6 transporting rack D61 conveying unit
D611 sucker D62 moving part
D63 rail chair D631 actuator
E the second discharge mechanism the second positioning part of E1
The positioning region the E11 positioning region E12
E2 transports the second feed bin of spacing F mechanism
F1 is for panel F11 for plate rail
F2 closing quotation area F21 closing quotation frame
F3 transfer area F4 holding box
G the first transfer mechanism G1 main running rail
G11 fixed frame G111 side frame
G112 side frame G113 side frame
G114 the second fixing piece G115 elastic element
G2 the first transfer head G21 extracts axis
G22 extracts head G23 actuator
G3 support base G31 fine tuning seat
G4 fixing seat G41 fixed part
G42 first side G43 engraves hole
G44 second side G5 pair sliding rail
G6 the first rail chair G61 slide
G62 sliding rail G63 actuator
G7 pair sliding rail the second rail chair of G8
G81 slide G9 actuator
G91 drive rod the second transfer mechanism of H
H1 rail chair the second transfer head of H2
H21 picks and places head H22 and picks and places head
H23 picks and places head H24 actuator
H25 belt the first support base of H3
H31 fixed part the second support base of H4
The upper support H411 sliding slot of H41
Support H421 slide under H42
H21 picks and places head H5 fixing seat
H6 rail chair H61 actuator
K third transfer mechanism K1 rail chair
K2 third transfer head K3 suction nozzle
The 4th transfer mechanism of K4 sliding rail L
L1 main running rail L2 transfer head
N inspects unit N1 camera lens
N2 X-axis fine tuning seat N3 Y-axis fine tuning seat
N4 Z axis fine tuning seat P processes host
P1 feeding device P2 base
The side P21 fixed part P22 seat
P3 first transmits flow path P31 and carries seat
P4 second transmits flow path P41 and carries seat
P411 first position P412 second position
Specific embodiment
Referring to Fig. 1, the embodiment of the present invention makes multiple element A be placed in load plate A1 in a manner of matrix arrangement, load plate A1 is supplied
The position of element A is accommodated, corresponding embedding cave A11 shape can be set as according to element A shape position element A can suitably, the load
The two sides being parallel to each other on disk A1 are respectively provided with a recessed first opening up buckle respectively at upper and lower side is corresponding in both ends
The recessed downward opening second buckle portion A13 of portion A12 and one;The two sides being parallel to each other on load plate A1 in both ends this first
Between buckle portion A12 (or second buckle portion A13), it is respectively provided with a recessed third buckle portion A14, recessed opening court respectively
Under;The two sides being parallel to each other on load plate A1 are in each first buckle portion A12 (or second in second buckle portion A14 and both ends
Buckle portion A13) between, it is respectively provided with one respectively in recessed embedding ditch A15 up and down, recessed opening is towards the two sides load plate A1
Outside side;Load plate A1 is in rectangle, and is equipped with a rescinded angle A16 in a wherein corner;The upper surface load plate A1 is equipped with two protruding pin A17,
The lower surface of corresponding two protruding pin A17, which is then equipped with, is then equipped with shrinkage pool A18 (not shown);Element A can such as one have metal
The substrate of composition, the substrate is for being sticked on it with circuit or be loaded with the flexible electric circuit board (Flexible of passive device
Substrate or flexible printed wiring board (Flexible Print Circuit, FPC));Wherein, element A can be
Single element combines with multiple element, is bonded or is coupled integral component.
Referring to Fig. 2, the feeding device B of the embodiment of the present invention is an independent board, and set on a board table top B1
Have:
One first feed bin mechanism C, is located at side on board table top B1, and first feed bin mechanism C is horizontally disposed simultaneously in X axis
The conveying flow path of load plate A1 straight line is provided comprising: positioned at straight line flow path one end one for panel C1 and be located at straight line flow path
One closing quotation area C2 of the other end, this is for being equipped with a transfer area C3 between panel C1 and closing quotation area C2;This includes a confession for panel C1
Plate rail C11 has been equipped with the load plate A1 of multiple element A to be processed arranged in arrays for plate rail C11;The closing quotation
Area C2 includes that closing quotation a frame C21, the closing quotation frame C21 has been picked the removal element A to be processed for storing and be in vacant shape
The load plate A1 of state;First feed bin mechanism C from right to transporting load plate A1 toward closing quotation area C2 for panel C1 from this leftly, and
Picked when through transfer area C3 and remove the element A to be processed, then in the load plate A1 of blank state it is continuous moved to
The closing quotation frame C21 is stacked to be collected;
One first discharge mechanism D, the relatively inner other side first feed bin mechanism C on board table top B1, this
One discharge mechanism D is horizontally disposed in X axis, and provides the horizontal interval conveying flow path of a straight line, and transport path is uniaxially
It is identical as the conveying direction of load plate A1 first feed bin mechanism C by right to a left side;First discharge mechanism D includes: positioned at the straight line
Horizontal conveying flow path on linear spaced multiple first positioning part D1;
One second discharge mechanism E, first discharge mechanism D on board table top B1 with respect to first feed bin mechanism C
The other side, and make the first discharge mechanism D between the second discharge mechanism E and first feed bin mechanism C;Second discharge mechanism
D is horizontally disposed in X axis, and horizontal interval that is parallel with the first discharge mechanism D and providing a straight line simultaneously transports flow path,
Transport path be uniaxially by left-to-right, it is opposite with the transport path of first feed bin mechanism C and first discharge mechanism D;It should
Second discharge mechanism E includes: linear spaced multiple second positioning part E1 on the horizontal conveying flow path of the straight line;
One second feed bin mechanism F is located at the opposite other side first feed bin mechanism C on board table top B1, makes the first row
Material mechanism D, the second discharge mechanism E are located between first feed bin mechanism C and second feed bin mechanism F;Second feed bin mechanism C is in
X axis is horizontally disposed with and provides the conveying flow path of load plate A1 straight line comprising: positioned at straight line flow path one end one for panel F1
And the closing quotation area F2 positioned at the straight line flow path other end, this is for being equipped with a transfer area F3 between panel F1 and closing quotation area F2;The confession
Panel F1, which is equipped with, folds the load plate A1 for setting blank state for plate rail F11 for putting;The closing quotation area F2 be equipped with closing quotation frame F21 for
It has been equipped with the load plate A1 of multiple finished products arranged in arrays that processing is completed;Second feed bin mechanism F is by the right side a to left side
From the load plate A1 empty toward the direction conveying of closing quotation area F2 for panel F1, and contained when through transfer area F3 and processing be completed
Finished product, then continue and moved to closing quotation frame F21 and be stacked collections, the side of load plate A1 is transported with first feed bin mechanism C
To identical, but transported with this in the second discharge mechanism E element A to be processed contrary;Second side feed bin mechanism F
Equipped with a holding box F4 for holding defective products;
One first transfer mechanism G is located on board table top B1 between first feed bin mechanism C and first discharge mechanism D;
The first transfer mechanism G in Y-axis be arranged, and with first discharge mechanism D, the first feed bin mechanism C is vertical and provides simultaneously
The horizontal conveying flow path of one straight line, transport path is by first feed bin mechanism C to the first discharge mechanism D;First transfer
Mechanism G is placed on the transfer area C3 of first feed bin mechanism C, and is equipped with and can be driven back and forth on a horizontal main running rail G1
It is displaced between the horizontal conveying flow path starting point of the transfer area C3 and first discharge mechanism D of first feed bin mechanism C
One first transfer head G2;
One second transfer mechanism H is removed on board table top B1 close to first discharge mechanism D element A to be processed
The end of flow path is sent, and transports the starting point of flow path close to the finished product that processing is completed in second discharge mechanism E;Second shifting
Mounted mechanism H in X axis be arranged, and be equipped with first feed bin mechanism C, first discharge mechanism D, second discharge mechanism E, should
A second feed bin mechanism F parallel rail chair H1 is to provide the horizontal conveying flow path of a straight line;The second transfer mechanism H is equipped with one
Second transfer head H2, which is driven on rail chair H1, makees the left and right shift reciprocately of X axis;
One third transfer mechanism K is located on board table top B1 between first discharge mechanism D, second discharge mechanism E,
And element A to be processed transports the end of flow path on first discharge mechanism D, and close to second discharge mechanism E
The starting point of the finished product conveying flow path of processing is completed;Third transfer mechanism K is equipped with and first feed bin mechanism C, the first row
Expect that the vertical rail chair K1 of mechanism D, second discharge mechanism E, second feed bin mechanism F provides straight line Y-axis level conveying stream
Road, transport path is by the end of element A conveying flow path to be processed on first discharge mechanism D to second material discharging machine
The starting point of the finished product conveying flow path of processing is completed in structure E;Third transfer mechanism K is equipped with can be driven movement Y-axis on rail chair K1
To displacement in the end of the conveying flow path of first discharge mechanism D between the starting point of the second discharge mechanism E conveying flow path
Third transfer head K2, be equipped with a suction nozzle K3 below third transfer head K2 and X axis displacement can be made on a sliding rail K4;
One the 4th transfer mechanism L, the finished product conveying stream of processing is completed in second discharge mechanism E on board table top B1
Between the end on road and second feed bin mechanism F;4th transfer mechanism L in Y-axis be arranged, and with second discharge mechanism E,
Second feed bin mechanism F is vertical and provides the horizontal conveying flow path of a straight line simultaneously, and transport path is by second material discharging machine
The end of the finished product conveying flow path of processing is completed to the transfer area F3 of second feed bin mechanism F in structure E;4th transfer mechanism L
It is placed on the transfer area F3 of second feed bin mechanism F, and is equipped with to be driven on a main running rail L1 and be displaced in transfer area F3
The transfer head L2 between the end of the finished product conveying flow path of processing is completed with second discharge mechanism E.
First feed bin mechanism C is identical as the mechanism of the second feed bin mechanism F, hereby says by taking first feed bin mechanism C as an example
It is bright, Fig. 3,4 are please referred to, first feed bin mechanism C's is equipped with the rectangle skeleton frame that an inside is in hollow out section C111 for plate rail C11
It is respectively provided with to limit and enclose between the stand C113, each stand C113 of angular cross section respectively around C112, hollow out section C111 and sets out two
For being stacked load plate section C114, C115 of load plate A1, rectangle skeleton frame C112 opposite and parallel two sides are respectively provided with two respectively
Group can be driven the clamping piece C116 that level of movement stretches to hollow out section C111;The closing quotation frame C21 of first feed bin mechanism C is equipped with one
Inside is in the rectangle skeleton frame C212 of hollow out section C211, is respectively provided with the stand of multiple angular cross sections around the C211 of the hollow out section respectively
C213, respectively limits and is enclosed between stand C213 and set out two for being stacked load plate section C214, C215 of load plate A1, the rectangle skeleton frame
C212 opposite and parallel two sides are respectively provided with two groups respectively can make to dial shifting pivot but horizontal direction hollow out section non-return downwards upwards
C211 shifting stretches and can freely dial the block key C216 pulled;For plate rail C11, closing quotation frame C21, each be cross-placed on jointly is separated by spacing respectively for this
And above parallel two sides seat C4, the hollow out section C211 of the hollow out section C111 and closing quotation frame C21 for plate rail C11
Respectively mobile space C41 is formed by with two sides seat C4 spacing respectively to communicate;It is respectively set respectively on two side seat C4 opposite inner sidewall
There is X axis to be located above the slideway C42 towards oncoming lane seat C4 projection, each lower section slideway C42 is respectively provided with the sliding rail of X axis respectively
Slide C44 is respectively provided on C43, sliding rail C43 respectively, slide C44 is equipped with a transfer mechanism C5, and transfer mechanism C5 includes along X
Two fixture C51 of axially spaced spacing setting, slide C44 are linked and are interlocked by a belt C45, and belt C45 is set to two sides
On seat C4 opposite inner sidewall between two runner C46, C47, and a wherein runner C46 is driven by an actuator C48 and interlocks transfer
Mechanism C5 can make X axis toward polyslip on sliding rail C43;The wherein side seat C4 of two sides seat C4 is equipped with a holding box C49 can
For holding defective products;Between the seat C4 of two sides and between the dynamic road of two transfer mechanism C5 sliding, equipped with being separated by spacing and respectively correspond to respectively
This is respectively provided with a pedestal C61 for two elevating mechanism C6, each elevating mechanism C6 below plate rail C11, closing quotation frame C21 respectively, should
Pedestal C61 is positioned equipped with the two embedding ditch C611 for being separated by spacing and being parallel to each other for the embedding frame in two side bottom seat C4, and in pedestal C61
On two embedding ditch C611 between be equipped with a lifting platform C62, lifting platform C62 can be by actuator C63 driving be made below pedestal C61
Lower lifting on each lifting platform C62 and is equipped with the base C621 of two projection platform-likes, wherein this is for the lifting below plate rail C11
The upper two bases C621 of the lifting platform C62 of mechanism C6 respectively corresponds load plate section C114, C115, the lifting below closing quotation frame C21
The upper two bases C621 of the lifting platform C62 of mechanism C6,622 difference each corresponding load plate section C214, C215.
Referring to Fig. 5, each fixture C51 of transfer mechanism C5 respectively includes being separated by spacing along X axis on slide C44 to set
Two opposite pawl C511, each pawl C511 of the correspondence set respectively are set on slide C44 on slanting sliding rail C512 respectively, two tugs
Pawl C511 is set and is interlocked with moving part C513 connection simultaneously, and it is up and down that moving part C513 by actuator C514 driving is made Z axis
When displacement, by interlock two pawl C511 makees on slanting sliding rail C512 upwards and in opposite directions folder lean on or downwards simultaneously relative separation position
It moves.
Fig. 1,3~5 are please referred to, in conveying, the load plate A1 for being loaded with element A can be stacked and placed on above and below this for disk with multiple
Each stand C113 limit of frame C11 is enclosed in the two load plate section sections C114, C115 set, and wherein the rescinded angle A16 of load plate A1 is corresponding
Also it is equipped with a stand C113 of rescinded angle, and mutually folded under the protruding pin A17 of the corresponding lower section load plate A1 of shrinkage pool A18 of load plate A1 above
It is embedding, and load plate A1 with third buckle portion A14 by clamping piece C116 it is embedding support be placed in above each clamping piece C116 under be stacked and placed on
In the two load plate sections section C114, C115;The lifting platform C62 for the elevating mechanism C6 below plate rail C11 is driven moving part C63 drive
It is dynamic and rises, and the hollow out section C111 through skeleton frame C112 and on be butted on load plate A1 stacked in two load plate section C114, C115
Lower section makes in two load plate section C114, C115 whole folded load plate A1 move up disengaging and rests against each clamping piece C116, then each clamping piece
C116 driven member C117 driving inside contracts, and lifting platform C62 interlocks whole folded load plate A1 in two load plate section C114, C115 and moves down a load
The height of disk A1 makes each clamping piece C116 be protruded out the third buckle of the second load plate A1 counted from lower to upper with inlay card by driving again
Portion A14, then bottom load plate A1 can individually be interlocked the cunning for dropping to projection on the opposite inner sidewall of two sides seat C4 by lifting platform C62
Road C42 is parked, and by each two pawls C511 clip of two fixture C51 in transfer mechanism C5 on the seat C4 of side, transfer mechanism C5
And it slides to transport load plate A1 to transfer area C3 on sliding rail C43 and be extracted for the first transfer head G2 of first transfer mechanism G;It carries
After element A has all been extracted on disk A1, load plate A1 is transported by transfer mechanism C5 to closing quotation frame C21, below closing quotation frame C21
The lifting platform C62 of elevating mechanism C6 be driven and interlock load plate A1 rising, and the hollow out section C111 through skeleton frame C112 and on support
Each block key C216 is dialled on top, and after load plate A1 is by each block key C216, each block key block key C216 return, then lifting platform C6 is interlocked again
Load plate A1 decline, is placed in load plate A1 on each block key C216 with the second buckle portion A13;
Alternating respectively is adopted set on the transfer mechanism C5 of sliding rail C43 upper saddle C44 respectively on two side seat C4 opposite inner sidewall
Conveying mode, when transfer mechanism C5 is executed load plate A1 by arriving and closing through transfer area C3 for plate rail C11 conveying on the seat C4 of side
When frame C21, the other side upper transfer mechanism C5 of seat C4 reversely below the load plate A1 in conveying by closing quotation frame C21 through transfer area C3 times
Position is transported to for plate rail C11 with preparation next time.
The first transfer mechanism G is identical as the mechanism of the 4th transfer mechanism L, hereby says by taking first transfer mechanism G as an example
It is bright, Fig. 3,6 are please referred to, first transfer mechanism G includes being consolidated below the hanging, other end by a support base G3 support below one end
Reservation G4, the hanging one end in the lower section are provided with the two sides seat C4 that a horizontally disposed fixed part G41 is fixedly arranged on the first feed bin mechanism C
On, the lower section support base G3, which is equipped with, can make X, (width is enough between the seat C4 of two sides is enough greatly the fine tuning seat G31 of Y-axis WidFin
When support, support base G3 can be omitted and is directly fixedly arranged on the two sides seat C4 of the first feed bin mechanism C with fixed part G41);Gu
Reservation G4 is located at two to secondary sliding rail G5, main running rail G1 equipped with two Z axis for being separated by spacing as the first side G42 of front side
Z axis horizontal can be made to slide above and below on secondary sliding rail G5 on secondary sliding rail G5 in two Z axis;Y-axis is equipped with above fixing seat G4
It is cross-placed on the first rail chair G6 and main running rail G1 to the first rail chair G6, the first transfer head G2 with a fixing piece G21 or more,
In, it is that be hubbed at the top fixing piece G21 position on the first rail chair G6 one is slided in fixing piece G21 and the first rail chair G6 setting
Seat G61 on a Z axis on sliding rail G62, make first transfer head G2 can by actuator G63 on the first rail chair G6 driving and can
By Z axis in a manner of being vertically arranged on Y-axis the first rail chair G6 and main running rail G1 toward polyslip;The first transfer head G2 is equipped with one
Axis G21 is extracted, lower end, which is equipped with, extracts head G22, which can treat absorption object equipped with negative pressure sucker and make negative-pressure adsorption,
It extracts the shape of head G22 and corresponding design can be made according to object surface shape to be drawn, while extraction axis G21 can make upper and lower displacement simultaneously
It is rotated by the upper actuator G23 driving of the first transfer head G2.
Fig. 6,7 are please referred to, main running rail G1 back side is with two side frame G111, G112 of a frame-shaped fixed frame G11 with will wherein
One Z axis is stretched engrave on the outside of hole G43 and fixing seat G4 through fixing seat G4 upper one respectively to secondary sliding rail G7 packet frame mode therein, makes solid
Determine frame G11 and main running rail G1 and forms gearing;Fixed frame G11 is in fixing seat G4 on second side G44 as on rear side of, with a side frame
G113 be installed on second side G44 it is fixed in the second rail chair G8 upper saddle G81 of Z axis to setting, and by the second rail chair G8
An actuator G82 driven, make displacement of the fixed frame G11 on the second rail chair G8 that can interlock main running rail G1 and make upper and lower displacement;
It is equipped with the first fixing piece G64 in Y-axis the first rail chair G6 back side, it is fixed that second is equipped on the side frame G113 of fixed frame G11
Part G114, it is fixed with the one end drive rod G91 connection first that the second fixing piece G114 is equipped with the actuator G9 that a vapour pressure cylinder is constituted
Part G64, and it is respectively provided with an extension spring respectively between the first fixing piece G64 and the second fixing piece G114 of the two sides drive rod G91
The elastic element G115 of composition, make fixed frame G11 and main running rail G1, the first transfer head G2 make under in floating state its weight by
Elastic element G115 pulls support, and makes actuator G82 driving fixed frame G11 gearing main running rail G1, the first transfer head G2 can
It is laborsaving to obtain;And the spacing between the first fixing piece G64 and the second fixing piece G114 defines the elasticity of elastic element G115 stretching
Restoring force by the actuator G9 driving drive rod G91 shortening between the first fixing piece G64 and the second fixing piece G114 or is stretched
It is long, to finely tune the elasticity of elastic element G115 pull.
Fig. 8,9 are please referred to, each first positioning part D1 of first discharge mechanism D is by being separated by between the conveying of a hollow out
Two sides corresponding recessed positioning region D11, D12 away from D2 are constituted, and the element A to be processed transported is each with both ends difference
It is placed on positioning region D11, D12, and by intermediate position vacantly across being placed in a manner of the conveying space D 2 of hollow out;Neighbouring the
First discharge mechanism D of the three transfer mechanism K element A to be processed transports the last one first positioning part D1 of flow path end
Place respectively has a finished product that processing is completed for putting being separated by an identical spacing respectively in the two sides the first positioning part D1
Third positioning part D3 is made of two sides for being separated by the conveying space D 2 of hollow out corresponding recessed positioning region D31, D32;
The side of first the first positioning part D1 of the element A conveying flow path starting point to be processed in neighbouring first discharge mechanism D,
Equipped with a reader M, for reading the element A to be processed being placed on the first positioning part D1 of the conveying flow path starting point first
Such as two-dimensional bar code product information;
The second positioning part E1 of second discharge mechanism E is corresponding recessed by two sides for being separated by the conveying spacing E2 of a hollow out
If positioning region E11, E12 are constituted, it is respectively to be placed in positioning region E11, D12 respectively with both ends that is transported, which is completed the finished product of processing,
On, and by intermediate position vacantly across being placed in a manner of the conveying spacing E2 of hollow out;The side of second discharge mechanism E is equipped with
One inspects unit N, is equipped with a CCD camera lens N1 and is located above second positioning part E1, the CCD camera lens N1 is simultaneously micro- by an X-axis
The fine tuning of seat N2, a Y-axis fine tuning seat N3, a Z axis fine tuning seat N4 is adjusted to be displaced fine tuning, to set to second discharge mechanism E upper second
The finished product that processing is completed transported in portion E1 is put to be checked.
Suction nozzle K3 below the third transfer head K2 of third transfer mechanism K is inhaled with negative pressure, puts operation, and with this
Third transfer head K2 on sliding rail K4 shift reciprocately in the first discharge mechanism D conveying flow path end two third positioning part D3 it
Between, and with the third transfer head K2 on rail chair K1 shift reciprocately in the first discharge mechanism D conveying flow path end last
Between first the second positioning part E1 of the starting point of a first positioning part D1 and the second discharge mechanism E conveying flow path, to
Pick and place and transport the finished product that processing is completed.
Fig. 8,10 are please referred to, first discharge mechanism D is that the two sides seat D4 being parallel to each other by two is constituted, on the seat D4 of two sides
There is the jig seat D41 of a strip in side respectively respectively for multiple recessed positioning region D11 or the positioning region separately are arranged
D12;The conveying space D 2 of hollow out is separately formed between the seat D4 of two sides, and is equipped with a transport mechanism in the conveying space D 2
D5, transport mechanism D5 include the X axis horizontal slide rail D51 being located therein on the seat D4 side wall of side, and sliding rail D51, which is equipped with, to be slided
Seat D52, slide D52 are equipped with Z axis to actuator D53;One transporting rack D6 makees X axis parallel two side seat side D4 in elongated rod shape
Formula setting is equidistantly equipped with multiple conveying unit D61 thereon with arranged in a straight line, and each conveying unit D61 can distinguish each in conveying
Below corresponding first positioning part D1, conveying unit D61 is equipped with sucker D611 and provides negative pressure;Transporting rack D6 is by this
Actuator D53 gearing can make Z axis and be displaced up and down, and be driven with a moving part D62 by the actuator D631 of a rail chair D63,
And it can be with slide D52 horizontal displacement on sliding rail D51;When being transported, transporting rack D6 is first driven by actuator D53
Make Z axis to moving up, and accepted with the negative-pressure adsorption of sucker D611 on conveying unit D61 put on first positioning part D1 to
The element A of processing, then moving part D62 is driven from the actuator D631 of rail chair D63 and interlocks transporting rack D6 toward conveying flow path
Front is displaced a spacing, until in conveying flow path at next first positioning part D1, then makes actuator D53 that this be driven to remove
Frame D6 is sent to make Z axis to moving down, first positioning part D1 element A to be processed adsorbed on conveying unit D61 being placed at this
In, and follow this mode and gradually transport the element A to be processed in first positioning part D1 forward;
The transport method and construction of second discharge mechanism E is roughly the same with the first discharge mechanism D, only compared with the first row
Material mechanism D lacks two third positioning part D3, while conveyance direction is not on the contrary, repeat hereby.
Fig. 2,11~12 are please referred to, which is equipped with one fixed part H31 of bottom end and is installed on board table top B1
And to be installed in board side B2 to incite somebody to action by the first support base H3 of rail chair H1 support, and equipped with one fixed part H41 of bottom end
Second support base H4 of rail chair H1 support, second support base H4 include one end upper support H41 fixed with rail chair H1, and
The lower support H42 that one end and board side B2 are fixed, support H41 and lower support H42 is sliding with the projection of adjustable displacement on this
Seat H421, recessed sliding slot H411 are combined;A fixing seat H5 is equipped in the rail chair H1 other end of opposite first support base H3;This
Two transfer head H2 are driven by the upper actuator H11 of rail chair H1 and make the left and right shift reciprocately of X axis, and by the upper Z of rail chair H1
The actuator H61 of axial rail chair H6 drives, and can make Z axis on rail chair H6 and be displaced up and down;The second transfer head H2 is simultaneously set
There are three pick-and-place head H21, H22, H23 for being equidistantly arranged in a linear, and the pick-and-place head H21, H22, H23 are respectively carried out respectively with negative pressure
It picks and places;The second transfer head H2 simultaneously rotates the pick-and-place head H21, H22, H23 using actuator H24 with belt H25 gearing
Loading or unloading operation in a manner of carrying out special requirement or transport.
Please refer to Figure 13,14, on the implementation, the feeding device B of the embodiment of the present invention is set as the first board, to and make
For the second board processing host P phase juxtaposition and provide processing the host P element A to be processed;In the embodiment of the present invention, it should add
Fitting of the work host P to carry out two element, wherein an element Q (not shown) is provided by a feeding device P1 and transported to machine
Seat P2 mono- first is transmitted on the load seat P31 of flow path P3, and it is to be processed that feeding device B utilizes second transfer mechanism H to provide this
Element A to base P2 mono- second is transmitted on the load seat P41 of flow path P4, and will be by a transfer fit body (because of non-present invention
Feature, therefore not shown and explanation) it element Q is moved to this by the loads seat P31 of the first transmission flow path P3 second transmits flow path P4
It carries and is moved back in feeding device B on seat P41 with the element A finished product that processing is completed being bonded, therefore second transfer machine
The rail chair H1 of structure H is extended in the processing host P as the second board, and is fixedly arranged on base P2 point with fixing seat H5
Every on the fixed part P31 of a projection of the first transmission flow path P3 and the second transmission flow path P4, and make under second support base H4
Support H42, which is installed, to be contained in the side seat P32 of the side base P2, and support H41 on this is only exposed;And second transfer mechanism
Second transfer head H2 of H can then be driven in the processing host P being displaced into back and forth horizontally on rail chair H1 as the second board
Second transmission flow path P4 load seat P41, should be to the first discharge mechanism D of the feeding device B as the first board
It transports and picks and places between element A conveying the last one first positioning part D1 of flow path end of processing.
Figure 14 is please referred to, the pick-and-place head H22 of second transfer head H2 is located between the pick-and-place head H21, H23 and to take
Element A to be processed is put, pick-and-place head H21, the H23 is to pick and place the finished product that processing is completed;In conveying, second transfer head H2
It moves at first discharge mechanism D element A conveying the last one first positioning part D1 of flow path end to be processed, with the pick-and-place
Element A head H22 to be processed to this in the first positioning part D1 is extracted;Then second transfer head H2 is moved at load seat P41, will
The element A to be processed is placed in the first position P411 of load seat P41, and pick-and-place head H23 then extracts first position simultaneously
The finished product that processing is completed of second position P412 on the left of P411;Then second transfer head H2 moves to first discharge mechanism D
At element A conveying the last one first positioning part D1 of flow path end to be processed, being completed for pick-and-place head H23 extraction is added
The finished product of work is placed in the third positioning part D3 on the left of first positioning part D1, and the pick-and-place head H22 is placed in next simultaneously
The element A to be processed of this in first positioning part D1 is extracted again;Then second transfer head H2 is moved at load seat P41, by this
Element A to be processed is placed in the second position P412 of load seat P41, and pick-and-place head H21 then extracts the second position simultaneously
The finished product that processing is completed of first position P411 on the right side of P412, and at this moment, the third of third transfer mechanism K is moved
Suction nozzle K3 will extract the finished product that processing is completed in third positioning part D3 on the left of first positioning part D1 below carrier head K2, will
In its first second positioning part E1 for transferring load to the second discharge mechanism E conveying flow path starting point, make it by past conveying flow path
End conveying;Then second transfer head H2 moves to the element A conveying flow path end to be processed first discharge mechanism D most
At the first positioning part of the latter D1, it is right that the pick-and-place head H21 finished product that processing is completed extracted is placed in first positioning part D1
In the third positioning part D3 of side, and the pick-and-place head H22 is placed in the element A to be processed of this in the first positioning part D1 to next simultaneously
It extracts again;Then second transfer head H2 is moved at load seat P41, which is placed in the of load seat P41
One position P411, and pick-and-place head H21 then extracts being completed for the second position P412 on the left of first position P411 simultaneously
The finished product of processing, and at this moment, suction nozzle K3 will extract first storing below the third transfer head K2 of third transfer mechanism K
The finished product of processing is completed in third positioning part D3 on the right side of portion D1, is transferred load to the second discharge mechanism E conveying flow path
In first the second positioning part E1 of starting point, transport it toward the end of conveying flow path;Reciprocation cycle that the rest may be inferred operation
It is transported.
The embodiment of the present invention on the implementation, remove by being driven for the load plate A1 in plate rail C11 for first feed bin mechanism C
Moved through transfer area C3, and after transfer area C3 makes the element A that this is to be processed thereon be picked removal, then make in blank state
Load plate A1 moved and be stacked collection into closing quotation frame C21;The first transfer head G2 of first transfer mechanism G is with negative
Pressure is picked up element A to be processed on the load plate A1 moved in transfer area C3 in first feed bin mechanism C by transfer one by one
It takes, and the first positioning part D1 for moving to horizontal conveying flow path starting point in first discharge mechanism D is put, defective products is then moved into and set
It is put in case C49;Reader M read be placed on the first positioning part D1 of the conveying flow path starting point first this is to be processed
Element A such as two-dimensional bar code product information after, the first discharge mechanism D is with transport mechanism D5 by the element to be processed
A, should in independently being transported one by one with alignment to the last one first positioning part D1 of the conveying flow path end individually
The upper second transfer head H2 of second transfer mechanism H then will be on end the first positioning part D1 of the first discharge mechanism D conveying flow path
The processing host P that moves on to outside board table top B1 of the element A to be processed carry out fitting processing, and the finished product of processing will be completed
Transfer load to the first positioning part D1 side of this is to be processed on first discharge mechanism D element A conveying flow path end this
It is put in three positioning part D3;Suction nozzle K3 will extract first positioning part below third transfer head K2 on third transfer mechanism K
The finished product of processing is completed in the third positioning part D3 of D1 side, is transferred load to the second discharge mechanism E conveying flow path and risen
In first second positioning part E1 at beginning, transport it toward the end of conveying flow path;And it is inspected during conveying by this
The CCD camera lens N1 of unit N carries out the finished product that processing is completed transported in the upper second positioning part E1 of second discharge mechanism E
It checks, then the end the second discharge mechanism E second positioning part will move to negative pressure with the transfer head L2 of the 4th transfer mechanism L
The finished product that processing is completed in E1 picks, and the transfer area F3 disposition moved in second feed bin mechanism F is put in the load plate
The closing quotation frame F21 that closing quotation area F2 is transported in A1 is stacked collection, and defective products is then moved into holding box F4 and put.
Method of feeding of the embodiment of the present invention and device, since the feeding device can be set as one first board, to and conduct
The processing host P phase juxtaposition of second board and processing host P element A to be processed is provided, therefore can independently produced and to appointing
One processing host P is fed;In addition, being removed by the load plate A1 conveying of first feed bin mechanism C, the first transfer mechanism G
The element A to be processed arrangement conveying of transfer, first discharge mechanism D is sent, the element A for keeping this to be processed is by the load
The arrangement conveying of individual independently element A is converted into disk A1 with multiple whole group conveyings for making matrix arrangement;And by this
Two transfer mechanism H can be not only bonded processing host P is transported in the conveying one by one of individual independent element A, simultaneously
The finished product for completing processing can be transported back first discharge mechanism D again, and second discharge is transported to by third transfer mechanism K
Mechanism E carries out conveying inspection one by one, and is transferred in second feed bin mechanism F and collected by the 4th transfer mechanism L, makes entirely to be fed
Operation automation and promote processing benefit.
Although the present invention is disclosed as above with preferred embodiment, however, it is not to limit the invention, any this field skill
Art personnel, without departing from the spirit and scope of the present invention, when can make a little modification and perfect therefore of the invention protection model
It encloses to work as and subject to the definition of the claims.
Claims (20)
1. a kind of method of feeding, comprising:
One feeding device is provided, is executed in the feeding device:
So that element to be processed is placed in a load plate with matrix arrangement, and transports the load plate by one first feed bin mechanism;
The element for keeping this to be processed is extracted and transfer one by one by one first transfer mechanism, and in individual in one first discharge mechanism
Independently mode is transported one by one;
The element for keeping this in the first discharge mechanism to be processed is extracted and removed outside the feeding device to one by one second transfer mechanism
Processing host is processed.
2. method of feeding as described in claim 1, which is characterized in that the element to be processed is in first discharge mechanism by with straight
Line arrangement mode is transported one by one.
3. method of feeding as described in claim 1, which is characterized in that the finished product for completing processing is simultaneously moved back to by second transfer mechanism
In the feeding device.
4. method of feeding as claimed in claim 3, which is characterized in that the finished product of completion processing is moved back into the feeding device
In first discharge mechanism.
5. method of feeding as claimed in claim 3, which is characterized in that the finished product of completion processing is transported by a third transfer mechanism
In one second discharge mechanism into the feeding device.
6. the method for feeding as described in claim 4 or 5, which is characterized in that be moved back into the completion processing in the feeding device
Finished product is inspected unit with one and is checked.
7. method of feeding as claimed in claim 6, which is characterized in that by inspected the completion after unit is checked process at
Product are transported to one second feed bin mechanism by a third transfer mechanism and are collected.
8. method of feeding as described in claim 1, which is characterized in that first feed bin includes:
One for panel and a closing quotation area, this is equipped with a transfer area for panel and the closing quotation section;This is for panel for being equipped with
The load plate of multiple elements to be processed arranged in arrays;The closing quotation area for put picked remove the element to be processed and
In the load plate of blank state;The load plate is transported for panel toward the closing quotation area from this, and is picked removal when through the transfer area
The element to be processed.
9. method of feeding as described in claim 1, which is characterized in that fitting of the processing host to carry out two element, wherein
One element by one first transmission flow path loads seat move to one second transmission flow path carry seat on the feeding device provide be somebody's turn to do to
The element of processing is bonded.
10. a kind of feeding device, comprising: be equipped on a board table top:
One first feed bin mechanism, for putting and transporting load plate, which is equipped with element to be processed with matrix arrangement;
One first discharge mechanism is equipped with multiple first positioning parts, for putting the element to be processed;
One first transfer mechanism is equipped with the first transfer head, and it is to be processed which can extract this in the first feed bin mechanism
Element, and be displaced it is inter-agency in the first feed bin mechanism and the first discharge;
One second transfer mechanism is equipped with the second transfer head, and it is to be processed which can extract this in first discharge mechanism
Element go forward side by side line position shifting.
11. feeding device as claimed in claim 10, which is characterized in that the feeding device is equipped with one second discharge mechanism and one the
Three transfer mechanisms, it is movable in first discharge mechanism and second material discharging machine which is equipped with a third transfer head
Between structure.
12. feeding device as claimed in claim 11, which is characterized in that the feeding device is equipped with one second feed bin mechanism and one the
Four transfer mechanisms, it is movable in second discharge mechanism and the second feed bin machine that the 4th transfer mechanism is equipped with one the 4th transfer head
Between structure.
13. feeding device as claimed in claim 10, which is characterized in that the feeding device is equipped with a reader, and corresponding read should
The product information of element to be processed on first discharge mechanism.
14. feeding device as claimed in claim 11, which is characterized in that the feeding device is equipped with one and inspects unit, and correspondence is inspected
The finished product of processing is completed on second discharge mechanism.
15. feeding device as claimed in claim 10, which is characterized in that the first feed bin mechanism is equipped with one and closes for plate rail and one
Frame, for plate rail, closing quotation frame, each be cross-placed on jointly is separated by spacing and parallel two sides top respectively for this, and two sides seat spacing is formed
Mobile space be equipped with a transfer mechanism, which includes the fixture that can make on the slide rail toward polyslip.
16. feeding device as claimed in claim 10, which is characterized in that first discharge mechanism includes: linearly to be alternatively arranged
Multiple first positioning parts;Each first positioning part is by the corresponding positioning region institute in two sides for being separated by the conveying spacing of a hollow out
It constitutes, the element to be processed transported is respectively placed on positioning region respectively with both ends, and with intermediate position vacantly across engraving
The empty conveying spacing mode is placed.
17. feeding device as claimed in claim 16, which is characterized in that first discharge mechanism transports stream in element to be processed
At the last one first positioning part of road end, the first positioning part two sides respectively respectively be separated by a spacing have one for put
The third positioning part of the finished product of processing is completed.
18. feeding device as claimed in claim 16, which is characterized in that be equipped with a transport mechanism, the conveying in the conveying spacing
Mechanism includes a transporting rack, which can make up and down displacements and horizontal displacement.
19. feeding device as claimed in claim 10, which is characterized in that second transfer head of second transfer mechanism is equipped with three
A pick-and-place head being equidistantly arranged in a linear, the pick-and-place head are respectively picked and placed respectively with negative pressure.
20. a kind of feeding device, comprising: to execute the device of the method for feeding as described in any one of claims 1 to 9.
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TW106119888A TWI618665B (en) | 2017-06-14 | 2017-06-14 | Feeding method and device |
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CN113789501A (en) * | 2021-09-09 | 2021-12-14 | 比尔安达(上海)润滑材料有限公司 | Method and system for forming multi-nano coating on surface of shaver cap |
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WO2017038093A1 (en) * | 2015-09-01 | 2017-03-09 | 坂東機工株式会社 | Glass plate processing device |
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Also Published As
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TWI618665B (en) | 2018-03-21 |
TW201904835A (en) | 2019-02-01 |
CN109081104B (en) | 2020-09-15 |
CN111776741B (en) | 2021-09-24 |
CN111776741A (en) | 2020-10-16 |
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