CN106852109A - A kind of electronic loader for being adapted to YAMAHA chip mounters - Google Patents
A kind of electronic loader for being adapted to YAMAHA chip mounters Download PDFInfo
- Publication number
- CN106852109A CN106852109A CN201710257366.0A CN201710257366A CN106852109A CN 106852109 A CN106852109 A CN 106852109A CN 201710257366 A CN201710257366 A CN 201710257366A CN 106852109 A CN106852109 A CN 106852109A
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- CN
- China
- Prior art keywords
- electronic loader
- electronic
- power supply
- chip mounter
- controlling organization
- Prior art date
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Classifications
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K13/00—Apparatus or processes specially adapted for manufacturing or adjusting assemblages of electric components
- H05K13/02—Feeding of components
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- Engineering & Computer Science (AREA)
- Manufacturing & Machinery (AREA)
- Microelectronics & Electronic Packaging (AREA)
- Supply And Installment Of Electrical Components (AREA)
Abstract
The invention discloses a kind of electronic loader for being adapted to YAMAHA chip mounters, including electronic loader body, detent mechanism, retaining mechanism, feed mechanism, allocation mechanism, controlling organization, signal switching mechanism, administration of power supply and tail structure.The controlling organization is arranged on electronic loader body, its power supply positive terminal is electrically connected by administration of power supply with the positive pole power taking of outside chip mounter, its power supply negative pole end is electrically connected with electronic loader body, and is erected at negative pole power taking electric connection on outside chip mounter conductive chassis by electronic loader body contacts formula.The present invention changes the way to take power of traditional electronic loader, simplifies structure, reduces equipment cost, improves operating efficiency.
Description
Technical field
The present invention relates to chip mounter technical field, more particularly to a kind of electronic loader for being adapted to YAMAHA chip mounters.
Background technology
Chip mounter is the nucleus equipment in circuit board Assembling Production field, and also known as surface mount system, being mainly used in will be various
The component material of type is accurately and quickly mounted on circuit board.Chip mounter must be equipped with special loader could be normal
Work.The electronic loader of tradition needs to connect power supply by the connected mode of wiring, and a chip mounter has four or five ten interfaces, holds
Make a slip of the tongue many, need to be corresponded to dial with hand when installing every time to insert, in-convenience in use, influence operating efficiency.
The content of the invention
The main object of the present invention is to propose a kind of electronic loader for being adapted to YAMAHA chip mounters, it is intended to change tradition
Electronic loader way to take power, simplify structure, reduce equipment cost, facilitate staff to operate, improve operating efficiency.
To achieve the above object, a kind of electronic loader for being adapted to YAMAHA chip mounters proposed by the present invention, including electricity
Dynamic loader body, detent mechanism, retaining mechanism, feed mechanism, allocation mechanism, controlling organization, signal switching mechanism, power supply machine
Structure and tail structure.The controlling organization be arranged on electronic loader body on, its power supply positive terminal by administration of power supply with it is outer
The positive pole power taking of portion's chip mounter is electrically connected, and its power supply negative pole end is electrically connected with electronic loader body, and by electronic loader
Body contacts formula is erected at negative pole power taking on outside chip mounter conductive chassis and is electrically connected.
Preferably, the administration of power supply is set to the movable device of an elasticity, and the movable device of elasticity includes a tubulose branch
Frame, a spring and a contact PIN, the tubular bracket are arranged on electronic loader body, and the spring inserts tubular bracket
It is interior;Described contact PIN one end is conducted with the controlling organization, and its other end is abutted with the positive pole power taking of outside chip mounter.
Preferably, the electronic loader body front end geometry is set with the conductive chassis shape adaptation of outside chip mounter,
Also, the detent mechanism and the retaining mechanism are arranged at the front end of electronic loader body.
Preferably, the signal switching mechanism is oppositely arranged including position a cylinder and a photoelectric sensor, the light
Electric transducer is connected with controlling organization, and the cylinder is connected with the driving source of the gas of outside chip mounter.
Preferably, pin after pin and before the detent mechanism includes, the side of the rear pin respectively has with bottom
One aperture, aperture is communicated described in two, the driving gas source pipe of outside chip mounter be each passed through two apertures of bottom and side with
The cylinder connection.
Preferably, the feed mechanism includes feeding motor, feeding gear group and one group to penetrating optoelectronic switch, wherein, institute
State and some uniform dumbbell holes are offered on the copper gear in feeding gear group, described one group is separately mounted to penetrating optoelectronic switch
The both sides of copper gear, corresponding with the dumbbell hole, one group of output end to penetrating photoswitc connects with the input of controlling organization
Connect.
Preferably, uniform dumbbell hole number is opened up on the copper gear in the feeding gear group for ten or 15.
Preferably, the allocation mechanism includes material toggling motor, material toggling gear train, wheel bracket, material toggling optoelectronic switch and dials
Material spring, the wheel bracket is hinged with electronic loader body, and one end of wheel bracket connects with one end of the material toggling spring
Connect, the other end of material toggling spring is fixed on electronic loader body, and light-operated baffle plate, institute are provided with the other end of wheel bracket
State that light-operated baffle plate is corresponding with the optoelectronic switch, the output end of photoswitc is connected with the input of controlling organization.
Preferably, the retaining mechanism includes a switch, an eccentric shaft, a locking plectrum, a steady pin, a locking connection
Piece, two locking riveting posts, a latch segment and a lock shaft, the eccentric shaft are fixed on electronic loader body with steady pin, institute
State locking plectrum be hinged with electronic loader body by eccentric shaft, it is described locking connection sheet one end by one locking riveting post and
Locking plectrum connection, its other end is connected by a locking riveting post with latch segment, and lock shaft is arranged on latch segment, and switch is installed
On electronic loader body, and with controlling organization by electrically connecting connection.
Preferably, the electronic loader body that the electronic loader body is made for aluminum alloy materials.With prior art
Compare, the beneficial effects of the invention are as follows:Simple and practical, low cost facilitates staff to operate, and improves operating efficiency.
Brief description of the drawings
Fig. 1 is structural representation of the invention;
Fig. 2 is the structural representation of administration of power supply of the invention;
Fig. 3 is the structural representation of signal switching mechanism of the invention;
Fig. 4 is the structural representation of feed mechanism of the invention;
Fig. 5 is the structural representation of allocation mechanism of the invention;
Fig. 6 is the structural representation of retaining mechanism of the invention;
Fig. 7 moves towards structural representation for material strip of the invention;
Fig. 8 is the attachment structure schematic diagram of electronic loader of the invention and chip mounter;
Fig. 9 is the transmission schematic diagram of feeding gear group embodiment one of the present invention;
Figure 10 is the transmission schematic diagram of feeding gear group embodiment two of the present invention.
Specific embodiment
The present embodiment proposes a kind of electronic loader for being adapted to YAMAHA chip mounters, and the structure of electronic loader 15 is such as
Shown in Fig. 1, including electronic loader body 1, detent mechanism 3, retaining mechanism 7, feed mechanism 5, allocation mechanism 6, controlling organization
8th, signal switching mechanism 4, administration of power supply 2 and tail structure 9, wherein, detent mechanism 3, retaining mechanism 7, feed mechanism 5, material toggling
Mechanism 6, controlling organization 8, signal switching mechanism 4, administration of power supply 2 and tail structure 9 are installed on electronic loader body 1,
The electronic generally metal material of loader body 1 is made, detent mechanism 3, retaining mechanism 7, feed mechanism 5, allocation mechanism 6, control
Mechanism processed 8, signal switching mechanism 4, administration of power supply 2 and tail structure 9 when mounted, are installed using insulation mode.
Controlling organization 8 is arranged on electronic loader body 1, and its power supply positive terminal is by administration of power supply 2 and outside paster
The positive pole power taking of machine 16 is electrically connected.Its power supply negative pole end is electrically connected with electronic loader body 1, and by electronic loader body
1 contact is erected at negative pole power taking on the conductive chassis of outside chip mounter 16 and is electrically connected.
Before electronic loader 15 is installed, the new electric power-feeding structure being adapted to it is installed on outside chip mounter 16, should
New electric power-feeding structure includes positive pole feeder ear and negative pole feeder ear.Wherein, as shown in Figures 2 and 8, the positive pole of the new electric power-feeding structure
Feeder ear is set to a conductive copper bar 17, and negative pole feeder ear is set to the conductive chassis 18 of outside chip mounter 16, conductive copper bar 17
Positive source with outside chip mounter 16 is connected, and conductive chassis 18 is connected with the power cathode of outside chip mounter 16, so as to realize
Power supply is conducted.
Electronic loader 15 is installed by detent mechanism 3, retaining mechanism 7 and administration of power supply 2 and is locked at outside chip mounter
On 16, the administration of power supply 2 of electronic loader 15 is abutted with the positive pole feeder ear of outside chip mounter 16, wherein, the conduct of administration of power supply 2
The positive pole power taking end of electronic loader 15, the contact of fore-end 19 of the electronic loader body 1 of electronic loader 15 sets up
On the conductive chassis 18 of outside chip mounter 16, electronic loader body 1 as electronic loader 15 negative pole power taking end;Its
In, conductive chassis 18 could be arranged to partially electronically conductive frame, as long as it can realize the electronic loader sheet with electronic loader 15
The contact of body 1 is conducted, and no limitations are hereby intended;The fore-end 19 of the electronic loader body 1 of electronic loader 15
After contact is erected on conductive chassis 18, electronic loader body 1 is electrically connected with the current-carrying part of conductive chassis 18, such as
This, the positive source electric energy of chip mounter is conducted to administration of power supply 2 by conductive copper bar 17, then provides power supply by administration of power supply 2
To controlling organization 8, the negative pole end of controlling organization 8 is conducted with electronic loader body 1, and by electronic loader body 1
Fore-end 19 is transmitted to conductive chassis 18, then the power cathode of outside chip mounter 16 is electrically connected by conductive chassis 18, so that
Realize the overall power supply conducting of electronic loader 15 and outside chip mounter 16.
It should be noted that after the administration of power supply 2 of electronic loader 15 is abutted with the positive pole feeder ear of outside chip mounter 16,
Both are electrically connected, and the electronic loader body 1 of electronic loader 15 is abutted with the negative pole feeder ear of outside chip mounter 16
Afterwards, both are electrically connected.During the 16 energization work of outside chip mounter, the power supply of new electric power-feeding structure and outside chip mounter 16 or
External power source connection is powered, and electronic loader 15 realizes power taking by the new electric power-feeding structure, into mode of operation.Change biography
The electronic loader 15 of system connects the way to take power of power supply by the connected mode of wiring, simplifies structure, reduces equipment cost,
Facilitate staff to operate, improve operating efficiency.
Further, administration of power supply 2 is set to the bascule of an elasticity, the bascule of elasticity as shown in Fig. 2 including
One tubular bracket 201, a spring 202 and a contact PIN203.Tubular bracket 201 is arranged on electronic loader body 1, spring
In 202 insertion tubular brackets 201, contact PIN203 one end conducts with controlling organization 8, its other end and outside chip mounter 16
Positive pole feeder ear is abutted.One end of spring 202 abuts with the bottom of tubular bracket 201, its other end and the one end for contacting PIN203
Connection, contact PIN203 can be movable and flexible on support by spring 202, using the bascule of elasticity, can overcome
Cause the position of the administration of power supply 2 of electronic loader 15 and the positive pole feeder ear generation of outside chip mounter 16 due to processing and alignment error
Deviation is put, causes the administration of power supply 2 of electronic loader 15 and the positive pole feeder ear loose contact of outside chip mounter 16, facilitate electricity
The power taking of dynamic loader 15.
Further, as shown in figure 8, the conductive chassis shape of the electronic front end geometry of loader body 1 and outside chip mounter 16
Shape adaptation is set, also, detent mechanism 3 and retaining mechanism 7 are arranged at the front end of electronic loader body 1.Facilitate electronic
The installation and power taking of loader 15, simplify the structure of outside chip mounter 16, reduce equipment cost.
Further, signal switching mechanism 4 is as shown in figure 3, the cylinder 401 and a photoelectric transfer that are oppositely arranged including position
Sensor 402, photoelectric sensor 402 is connected with controlling organization 8, and cylinder 401 is connected with the driving source of the gas of outside chip mounter 16.It is outside
When chip mounter 16 works, drive source of the gas to be opened for outside chip mounter 16 and power is provided, it can also be simultaneously letter to drive source of the gas source of the gas
The cylinder 401 of number switching mechanism 4 provides power, and drive cylinder 401 stretches.Because the one end of cylinder 401 correspondence is equipped with photoelectric sensing
Device 402, when cylinder 401 stretches out, the external part of cylinder 401 just extends the induction zone of photoelectric sensor 402, photoelectric sensor
402 actions for detecting cylinder 401, controlling organization 8 is transmitted to by signal, after controlling organization 8 receives signal, is issued instructions to electronic
The material toggling motor 601 and feeding motor 501 of loader 15, electronic loader 15 are started working.By the conversion of signal, realize outer
Working asynchronously between portion's chip mounter 16 and electronic loader 15.
Further, detent mechanism 3 is as shown in figure 1, including pin 301 after pin 302 and before, preceding pin 302
Head is provided with chamfering, it is preferable that the head of preceding pin 302 sets larger chamfering, the guiding of convenient preceding pin 302.After sell
Respectively there is an aperture side of nail 301 with bottom, and two apertures are communicated, after the driving gas source pipe of outside chip mounter 16 is each passed through
The bottom of pin 301 and two apertures of side are connected with the cylinder 401 of signal conversion part point 4, drive gas source pipe by outside paster
The driving source of the gas of machine sends cylinder 401 to, then the action of cylinder 401 is sensed by photoelectric sensor 402, by turning for signal
Change, realize working asynchronously between outside chip mounter 16 and electronic loader 15.In this way, positioning can be not only realized, meanwhile, can
Indirectly to connect the cylinder 401 of signal switching mechanism 4 and external air source, conversion and the electronic loader 15 of signal are facilitated
The synchronism worked with outside chip mounter 16, simplifies structure, reduces cost, facilitates staff to operate.
Further, feed mechanism 5 is as shown in figure 4, including feeding motor 501, feeding gear group and one group to penetrating photoelectricity
Switch 502, wherein, some uniform dumbbell holes 505 are offered on the copper gear 503 in feeding gear group, one group to penetrating photoelectricity
The both sides that switch 502 is separately mounted to copper gear 503, the one group output end of photoswitc and control corresponding with dumbbell hole 505
The input connection of mechanism 8.In this embodiment, it is preferred that, uniform dumbbell hole number can be set on copper gear 503 as ten or
Person 15.
When electronic loader 15 works, one end of material strip 11 is connected with the feeding gear 504 of feeding gear group, by feeding
Motor 501 drives feeding gear group to convey material strip 11.The encapsulation of current professional standard material strip 11 is according between 4MM multiples
Away from encapsulating, and the positioning spacing of material strip 11 is 4MM.
In the present embodiment one, when the dumbbell hole number on copper gear 503 is 15, as shown in figure 9, feeding gear group
The number of teeth of the first feeding gear 506 be 12 teeth, the number of teeth of the second feeding gear 507 is 20 teeth, and the number of teeth of copper gear 503 is
144 teeth, the number of teeth of the 3rd feeding gear 508 is 30 teeth, and the number of teeth of the 4th feeding gear 509 is 60 teeth, the tooth of feeding gear 504
Number is 30 teeth, can be calculated according to fixed shaft gear train gearratio formula:Gearratio=((60*144)/(30*12))=24.Feeding
The chord length of single space width is 4MM on the reference circle of gear 504, and the positioning spacing with material strip 11 is identical.Feeding gear group passes through
Engagement campaign between gear, when copper gear 503 moves to next dumbbell hole from a dumbbell hole, feeding gear 504 is transported
A spacing for tooth is moved, equidistant feeding is realized.Meanwhile, one group can detect straight trough on dumbbell hole 505 to penetrating switch 502
Position, when dumbbell hole 505 moves to one group to penetrating between switch 502, one group is switched on to penetrating switch 502, and one group to penetrating out
Closing 502 can send a pulse signal to controlling organization 8, and the motion to feeding gear group is monitored, so as to ensure gear
Kinematic accuracy.
In the present embodiment two, when the dumbbell hole number on copper gear 503 is ten, as shown in Figure 10, feeding gear
Group reduces the first feeding gear, and 506, the number of teeth of the second feeding gear 507 of feeding gear group is 21 teeth, copper gear 503
The number of teeth is 168 teeth, and the number of teeth of the 3rd feeding gear 508 is 22 teeth, and the number of teeth of the 4th feeding gear 509 is 132 teeth, feeding gear
504 number of teeth is 60 teeth, can be calculated according to fixed shaft gear train gearratio formula:Gearratio=((132*168)/(21*22))
=48.The chord length of single space width is still 4MM on the reference circle of feeding gear 504, can equally realize equidistant feeding, and lead to
Cross one group of motion to penetrating 502 pairs of feeding gear groups of switch to be monitored, it is ensured that the precision of gear movement.Meanwhile, increased and send
Expect the output torque of gear train, save space, facilitate feed mechanism feeding.
Further, allocation mechanism 6 as shown in figure 5, including material toggling motor 601, material toggling gear train, wheel bracket 602, dial
Material optoelectronic switch 604 and material toggling spring 603, wheel bracket 602 are hinged with electronic loader body 1, one end of wheel bracket 602
One end with material toggling spring 603 is connected, and the other end of material toggling spring 603 is fixed on electronic loader body 1, wheel bracket
Light-operated baffle plate 606 is installed, light-operated baffle plate 606 is corresponding with material toggling optoelectronic switch 604, and material toggling light is established by cable on 602 other end
The output end of light is connected with the input of controlling organization 8.
When electronic loader 15 works, the top and material toggling gear train of one end of scrap belt 12 by wheel bracket 602
End gear 605 is connected, and the driving material toggling gear train of material toggling motor 601 carries out material toggling to material strip 11.It should be noted that material toggling light
When electric switch 604 is turned on, material toggling optoelectronic switch 604 can send a signal to controlling organization 8, and controlling organization 8 can issue commands to dial
Material motor 601 is adjusted to speed faster and carries out material toggling, and when material toggling optoelectronic switch 604 is closed, controlling organization 8 can be issued commands to
The speed that material toggling motor 601 is adjusted to slower carries out material toggling.It is normally open after the energization of material toggling photoswitc in the present embodiment.
When scrap belt 12 is not moved in place, scrap belt 12 is more loose, and wheel bracket 602 will not be depressed by scrap belt 12, light-operated baffle plate 606
The light source of material toggling optoelectronic switch 604 will not be covered, material toggling optoelectronic switch 604 is conducting state, and material toggling motor 601 is adjusted to very fast
Speed carry out material toggling.Because material toggling speed is accelerated, wheel bracket 602 can be depressed by the pressure of scrap belt 12, light-operated gear
Plate 606 covers the light source of material toggling optoelectronic switch 604, and material toggling optoelectronic switch 604 is closed mode, and material toggling motor 601 adjusts slower
Speed carry out material toggling.After material toggling speed slows down, wheel bracket 602 is upspring in the presence of material toggling spring 603, and material toggling light is established by cable
It is conducting state to close 604, and material toggling motor 601 adjusts speed faster and carries out material toggling.So circulation, reaches closed-loop control, synchronous
Material toggling and the purpose of feeding.
Further, retaining mechanism 7 as shown in fig. 6, including one switch 701, one eccentric shaft 702, a locking plectrum 703,
The locking locking riveting of connection sheet 705, two of an one steady pin 704, post 706, a latch segment 707 and a lock shaft 708, eccentric shaft 702
It is fixed on electronic loader body 1 with steady pin 704, locking plectrum 703 passes through eccentric shaft 702 and electronic loader body 1
It is hinged, the one end for locking connection sheet 705 is connected by a locking riveting post 706 with locking plectrum 703, and its other end is by a locking
Riveting post 706 is connected with latch segment 707, and lock shaft 708 is arranged on latch segment 707, and switch 701 is arranged on electronic loader body
On 1, and with controlling organization 8 by electrically connecting connection.When on the chip mounter 16 mounted externally of electronic loader 15, can be dialled with hand
Dynamic locking plectrum 703, locking plectrum 703 lifts retaining mechanism 7 around eccentric shaft 702, facilitates the installation of electronic loader 15.Electricity
After on dynamic loader 15 chip mounter 16 mounted externally, locking connection sheet 705, latch segment 707 and lock shaft 708 constitute a connecting rod
Mechanism, lock shaft 708 is reversely stirred with hand, and lock shaft 708 is stuck on the conductive chassis 18 of outside chip mounter 16, using the company
Self-locking is realized at the dead point of linkage, so as to electronic loader 15 is locked on outside chip mounter 16, improves electronic loader
15 stability installed.Meanwhile, the switch 701 on locking plectrum 703 can control the break-make of the circuit of controlling organization 8, work as locking
After mechanism 7 locks, then switch 701 is opened, controlling organization 8 is played a protective role.
Further, electronic loader body 1 is made up of aluminum alloy materials, can mitigate electronic on the premise of intensity is met
The weight of loader 15.
As shown in fig. 7, when the present invention is used, the charging tray 10 that material strip 11 is will be equipped with first is arranged on tail structure 9, manually handle
Material strip 11 in charging tray 10 is put into feeding position along material strip entrance 13, tears scrap belt 12, and scrap belt 12 is by gear stand
Side is stuck on material toggling gear train, and the other end (empty material strip) of material strip 11 is discharged along material strip outlet 14.
The preferred embodiments of the present invention are these are only, the scope of the claims of the invention is not thereby limited, it is every to utilize this hair
Equivalent structure or equivalent flow conversion that bright specification and accompanying drawing content are made, or directly or indirectly it is used in other related skills
Art field, is included within the scope of the present invention.
Claims (10)
1. a kind of electronic loader for being adapted to YAMAHA chip mounters, including electronic loader body, detent mechanism, locking machine
Structure, feed mechanism, allocation mechanism, controlling organization, signal switching mechanism, administration of power supply and tail structure, it is characterised in that described
Controlling organization is arranged on electronic loader body, the positive pole power taking that its power supply positive terminal passes through administration of power supply and outside chip mounter
It is electrically connected;Its power supply negative pole end is electrically connected with electronic loader body, and is set up outside by electronic loader body contacts formula
Negative pole power taking on portion's chip mounter conductive chassis is electrically connected.
2. electronic loader as claimed in claim 1, it is characterised in that the administration of power supply is set to the moving machine of an elasticity
Structure, the movable device of elasticity includes a tubular bracket, a spring and a contact PIN, and the tubular bracket is arranged on electronic feed
On device body, in the spring insertion tubular bracket;Described contact PIN one end conducts with the controlling organization, its other end
Abutted with the positive pole power taking of outside chip mounter.
3. electronic loader as claimed in claim 1, it is characterised in that the electronic loader body front end geometry with it is outside
The conductive chassis shape adaptation of chip mounter is set, also, the detent mechanism and the retaining mechanism are arranged at electronic feed
The front end of device body.
4. electronic loader as claimed in claim 1, it is characterised in that the signal switching mechanism is oppositely arranged including position
A cylinder and a photoelectric sensor, the photoelectric sensor is connected with controlling organization, the drive of the cylinder and outside chip mounter
Take offence source connection.
5. electronic loader as claimed in claim 4, it is characterised in that the detent mechanism is sold after pin and before including
One aperture is respectively arranged at nail, side and the bottom of the rear pin, and aperture is communicated described in two, the driving gas source pipe of outside chip mounter
Two apertures for being each passed through bottom and side are connected with the cylinder.
6. electronic loader as claimed in claim 1, it is characterised in that the feed mechanism includes feeding motor, feeding tooth
Wheel group and one group to penetrating optoelectronic switch, wherein, some uniform dumbbells are offered on the copper gear in the feeding gear group
Hole, the described one group both sides that copper gear is separately mounted to penetrating optoelectronic switch, corresponding with the dumbbell hole, one group to penetrating photoelectricity
The output end opened the light is connected with the input of controlling organization.
7. electronic loader as claimed in claim 6, it is characterised in that opened up on the copper gear in the feeding gear group
The dumbbell hole number of cloth is ten or 15.
8. electronic loader as claimed in claim 1, it is characterised in that the allocation mechanism includes material toggling motor, material toggling tooth
Wheel group, wheel bracket, material toggling optoelectronic switch and material toggling spring, the wheel bracket are hinged with electronic loader body, guide wheel branch
One end of frame is connected with one end of the material toggling spring, and the other end of material toggling spring is fixed on electronic loader body, guide wheel
Light-operated baffle plate is installed, the light-operated baffle plate is corresponding with the optoelectronic switch, the output of photoswitc on the other end of support
End is connected with the input of controlling organization.
9. electronic loader as claimed in claim 1, it is characterised in that the retaining mechanism include a switch, an eccentric shaft,
One locking plectrum, a steady pin, a locking connection sheet, two locking riveting posts, a latch segment and a lock shaft, the eccentric shaft with it is solid
Rationed marketing is fixed on electronic loader body, and the locking plectrum is hinged by eccentric shaft with electronic loader body, the lock
The one end for being close to contact pin is connected by a locking riveting post with locking plectrum, and its other end is connected by a locking riveting post and latch segment
Connect, lock shaft is arranged on latch segment, switch is arranged on electronic loader body, and is connect by electrically connecting with controlling organization
It is logical.
10. the electronic loader as described in claim 1-9 is any, it is characterised in that the electronic loader body is that aluminium is closed
The electronic loader body that golden material is made.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201710257366.0A CN106852109B (en) | 2017-04-19 | 2017-04-19 | Electric feeder suitable for YAMAHA chip mounter |
Applications Claiming Priority (1)
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CN201710257366.0A CN106852109B (en) | 2017-04-19 | 2017-04-19 | Electric feeder suitable for YAMAHA chip mounter |
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CN106852109A true CN106852109A (en) | 2017-06-13 |
CN106852109B CN106852109B (en) | 2022-06-24 |
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Cited By (1)
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CN107635393A (en) * | 2016-07-19 | 2018-01-26 | Juki株式会社 | The control method of electronic part feeder, electronic component mounting apparatus and electronic part feeder |
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CN205385659U (en) * | 2016-03-11 | 2016-07-13 | 长沙常衡机电设备有限公司 | Electronic feeder of chip mounter |
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CN107635393A (en) * | 2016-07-19 | 2018-01-26 | Juki株式会社 | The control method of electronic part feeder, electronic component mounting apparatus and electronic part feeder |
CN107635393B (en) * | 2016-07-19 | 2020-12-29 | Juki株式会社 | Electronic component supply device, electronic component mounting device, and control method for electronic component supply device |
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