CN202455669U - Direct-drive high-speed and high-efficiency chip mounter - Google Patents

Direct-drive high-speed and high-efficiency chip mounter Download PDF

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Publication number
CN202455669U
CN202455669U CN2011205722843U CN201120572284U CN202455669U CN 202455669 U CN202455669 U CN 202455669U CN 2011205722843 U CN2011205722843 U CN 2011205722843U CN 201120572284 U CN201120572284 U CN 201120572284U CN 202455669 U CN202455669 U CN 202455669U
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CN
China
Prior art keywords
pcb substrate
suction nozzle
axle
chip mounter
ejector
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Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN2011205722843U
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Chinese (zh)
Inventor
肖曙红
李清国
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Guangdong University of Technology
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Guangdong University of Technology
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Publication date
Application filed by Guangdong University of Technology filed Critical Guangdong University of Technology
Priority to CN2011205722843U priority Critical patent/CN202455669U/en
Application granted granted Critical
Publication of CN202455669U publication Critical patent/CN202455669U/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

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Abstract

The utility model discloses a direct-drive high-speed and high-efficiency chip mounter. The chip mounter comprises a Y-axis positioning arch frame, an X-axis positioning beam, a feeder servo-type chip mounting head and the like, wherein the Y-axis positioning arch frame is arranged on a machine bed body; the X-axis positioning beam is arranged on the Y-axis positioning arch frame; the feeder servo-type chip mounting head is arranged on the X-axis positioning beam; a printed circuit board (PCB) substrate feeding mechanism and a PCB substrate elastic support are arranged on the machine bed body; a suction mouth warehouse is arranged on one side of the machine bed body; a servo-type tape-type feeder is arranged on the feeder servo-type chip mounting head; the PCB substrate feeding mechanism which conveys a PCB substrate to a requested position and is positioned on the PCB substrate elastic support is connected with a chip mounter controller; and the feeder servo-type chip mounting head which selects an appropriate suction mouth from the suction mouth warehouse, attracts an electronic element from the servo-type tape-type feeder and finishes the mounting action of the PCB substrate is connected with a chip mounter controller. The chip mounter is simple in structure, flexible in action, high in speed, high in accuracy, and high in efficiency; and the idle stroke in a mounting process is short.

Description

Direct-drive type high-speed and high-efficiency chip mounter
Technical field
The utility model is the direct-drive type high-speed and high-efficiency chip mounter that a kind of high speed surface that is used for the electronic devices and components of belt feeding mounts.Belong to the electronics technical field.
Background technology
Along with the manufacturing high speed development of electronics, the processing technology of mounted with electronic components is more and more on the circuit board is adopted by electronic apparatus manufacturer.Chip mounter normally is made up of XY precisely locating platform and placement head with the function of mounting.Bin is fixedly mounted on a side of chip mounter lathe bed usually, each duty cycle of chip mounter, and placement head all must be under the driving of xy locating platform be drawn electronic devices and components from bin, accomplishes step such as get material, locate, mount continuously.Placement head when locating platform is to its location, need accomplish in phase components and parts absorption, angular adjustment, action such as mount, traditional axial driving of placement head z usually adopts synchronous band mode of traction to accomplish.In order to improve the efficient of chip mounter, need to improve the speed of locating platform and the operating efficiency of placement head, so the high-speed and high-efficiency chip mounter not only requires fast, the accurate positioning of location speed, the idle stroke in the process of mounting of also must trying every possible means to reduce.This project is on the basis of traditional structure chip mounter; According to technology trends and requirement; The mode that adopts linear electric motors directly to drive, the high speed and precision of realization xy locating platform is located, and adopts direct-drive type, the bin placement head with ejector half simultaneously; The empty stroke time that electronic devices and components are mounted in the circulation greatly shortens, and mounts frequency and improves greatly.Because in all transmissions of chip mounter of the utility model; Eliminate traditional structure and adopted the kind of drive of electric rotating machine+screw-nut body or the mechanical wear of being with mode of traction to cause synchronously; The structure of the utility model; Not only speed and efficient improve greatly, and structure greatly simplifies, and maintenance is more prone to.
Summary of the invention
The purpose of the utility model be to design a kind of simple in structure, motion flexibly, the high speed that speed is fast, accuracy is high, direct-drive type high-speed and high-efficiency chip mounter efficient, simple in structure.
The technical scheme of the utility model is: the direct-drive type high-speed and high-efficiency chip mounter of the utility model; Include lathe bed, Y axle location bow member, X axle location crossbeam, feed appliance with ejector half placement head, PCB substrate feed mechanism, PCB substrate resiliency supported, suction nozzle storehouse, with ejector half belt feeder and chip mounter controller; Wherein Y axle location bow member is installed on the lathe bed; X axle location crossbeam is installed in the XY axle locating platform that constitutes placement head on the bow member of Y axle location; Feed appliance is installed on the crossbeam of X axle location with the ejector half placement head; PCB substrate feed mechanism and PCB substrate resiliency supported are installed on the lathe bed; The suction nozzle storehouse is installed in a side of lathe bed; Be installed in feed appliance with on the ejector half placement head with the ejector half belt feeder, the PCB substrate is sent to the position of requirement and the PCB substrate feed mechanism that is positioned on the PCB substrate resiliency supported is connected with the chip mounter controller, from the suction nozzle storehouse, choose suitable suction nozzle and also be connected with the ejector half placement head with the feed appliance of accomplishing the action that mounts of PCB substrate from draw electronic component with the ejector half belt feeder with the chip mounter controller through suction nozzle.
Above-mentioned Y axle location bow member includes left and right sides bow member two parts; Left and right sides bow member two parts are installed in respectively on the lathe bed, and X axle location crossbeam is installed on the bow member of Y axle location through guide rail, constitute the XY axle locating platform of placement head; Wherein the Y axle of Y axle location bow member is located and Y is installed to guide rail and Y axle driving linear motor stator electric on the left bow member; The Y axle drives the end that linear motor rotor is installed in X axle location crossbeam, and X axle location crossbeam is installed on the set slide block of the guide rail of the left and right sides, Y axle location bow member, on the crossbeam of X axle location X axle motion guide rail is installed; The stator that the X axle drives linear electric motors is installed in the middle of the X axle motion guide rail; The mover that the X axle drives linear electric motors is installed on the placement head mounting panel, and the placement head mounting panel is fixed on the set slide block of X axle motion guide rail, and above-mentioned feed appliance is mounted on the placement head mounting panel with the ejector half placement head.
Above-mentioned XY axle locating platform by a plurality of fot screws and parallels horizontal supporting on ground; Above-mentioned X axle location crossbeam is installed on the bow member of Y axle location through guide rail.
The said suction nozzle storehouse is installed in a side of lathe bed, and PCB substrate resiliency supported is installed on the lathe bed through mounting panel, and PCB substrate resiliency supported is positioned in the middle of the fixing support rack and removable bracing frame of PCB substrate feed mechanism.
Above-mentionedly be directly installed on feed appliance with on the ejector half placement head, have strip garbage collection dish with the ejector half belt feeder with the ejector half belt feeder.
Above-mentioned PCB substrate feed mechanism includes fixing support rack, removable bracing frame, supporting base, the wide leading screw of accent, transfers wide motor, guide rod, PCB substrate orientation cylinder; Fixing support rack and supporting base are installed on the lathe bed; The wide leading screw of accent of adjustable support frame width is installed on the supporting base; And transfer wide leading screw and coaxial connection of output shaft of transferring wide motor, removable bracing frame is installed on the slide block of guide rod, and guide rod is installed on the supporting base; Overlap the inboard that PCB substrate belt synchronous driving mechanism is installed in fixing support rack and removable bracing frame respectively more; The PCB substrate belt synchronous driving mechanism quantity that the inboard feeding that is used for the PCB substrate of being installed of fixing support rack and removable bracing frame transmits equates that symmetric arrangement is used for confirming that the PCB substrate is installed in fixing support rack at the PCB of the position of direction of feed substrate orientation cylinder.
Above-mentioned PCB substrate belt synchronous driving mechanism includes the transmission synchronous machine that is installed on the bracing frame, transmits band, driving wheel, guide wheel synchronously; Wherein driving wheel and coaxial connection of output shaft of transmitting synchronous machine; Be fixed with some be used to change direction, the tensioning of synchronous band and the guide wheels that support the PCB substrate on the bracing frame, be with (17.2) to be connected synchronously for the transmission of PCB substrate the Motion Transmission of driving wheel with driving wheel and guide wheel.
Above-mentioned PCB substrate feed mechanism is provided with some covers according to the impulse stroke of chip mounter and fixed belt synchronous driving mechanism.
Above-mentioned PCB substrate resiliency supported includes supporting bracket and resiliency supported thimble, and wherein supporting bracket is installed on the lathe bed, and the plurality of elastic support pin is arranged and is installed on the supporting bracket.
The said suction nozzle storehouse includes suction nozzle storehouse installing rack, suction nozzle box, locking cylinder, and suction nozzle storehouse installing rack is installed on the lathe bed, and the suction nozzle box is fixed on the installing rack of suction nozzle storehouse; Locking cylinder is installed in an end of suction nozzle box; Be used for the suction nozzle of locking positioning in suction nozzle box location hole, the piston rod of locking cylinder is connected with locking bar is coaxial, is processed with the location hole of suction nozzle that is used to locate different size of different-diameter on the locking bar; Hole set on location hole and the suction nozzle box is corresponding; The edge of location hole is processed with the arc section identical with the suction nozzle diameter, when locking bar under the effect of the piston rod of locking cylinder, can lock and discharge suction nozzle; The said suction nozzle box is provided with the suction nozzle location hole that is used to deposit the different size suction nozzle of several different sizes.
The direct-drive type high-speed and high-efficiency chip mounter of the utility model, linear electric motors are all adopted in the location of its placement head X, Y direction, and the feed appliance that is equipped with direct drive-type is with ejector half high speed placement head; The drive part of whole machinery has no middle transmission link, and is simple in structure, and action is very sensitive, speed is fast; Accuracy is high; Almost idle stroke is few to mount process, and efficient is high, is very suitable for efficiently the mounting of electronic component of belt feeding.
Description of drawings
The general assembly drawing of the efficient chip mounter of Fig. 1 the utility model embodiment high speed;
The sketch map of the locating platform among Fig. 2 the utility model embodiment;
The sketch map of PCB substrate feed mechanism among Fig. 3 the utility model embodiment;
The sketch map of the inboard mechanism of PCB substrate feed mechanism fixing support rack among Fig. 4 the utility model embodiment;
PCB substrate feed mechanism is transferred the sketch map of wide structure among Fig. 5 the utility model embodiment;
The sketch map of PCB substrate feed mechanism feed mechanism among Fig. 6 the utility model embodiment;
PCB substrate resiliency supported is arranged the sketch map of installing with the suction nozzle storehouse among Fig. 7 the utility model embodiment;
The structural representation in suction nozzle storehouse among Fig. 8 the utility model embodiment;
The structural representation of suction nozzle rod among Fig. 9 the utility model embodiment.
Embodiment
The structural representation of the utility model is as shown in Figure 1; The direct-drive type high-speed and high-efficiency chip mounter of the utility model; Include lathe bed 1, Y axle location bow member 2, X axle location crossbeam 3, feed appliance with ejector half placement head 4, PCB substrate feed mechanism 5, PCB substrate resiliency supported 6, suction nozzle storehouse 7, with ejector half belt feeder 8 and chip mounter controller; Wherein Y axle location bow member 2 is installed on the lathe bed 1; X axle location crossbeam 3 is installed in the XY axle locating platform that constitutes placement head on the bow member 2 of Y axle location; Feed appliance is installed on the crossbeam 3 of X axle location with ejector half placement head 4; PCB substrate feed mechanism 5 and PCB substrate resiliency supported 6 are installed on the lathe bed 1, and suction nozzle storehouse 7 is installed in a side of lathe bed 1, are installed in feed appliance with on the ejector half placement head 4 with ejector half belt feeder 8; The PCB substrate is sent to the position of requirement and the PCB substrate feed mechanism 5 that is positioned on the PCB substrate resiliency supported 6 is connected with the chip mounter controller, from suction nozzle storehouse 7, chooses suitable suction nozzle and also be connected with ejector half placement head 4 with the feed appliance of accomplishing the action that mounts of PCB substrate from draw electronic components with ejector half belt feeder 8 with the chip mounter controller through suction nozzle.
Above-mentioned Y axle location bow member 2 includes left and right sides bow member 2.1,2.2 two parts; Bow member 2.1,2.2 two parts in the left and right sides are installed in respectively on the lathe bed 1; X axle location crossbeam 3 is installed on the bow member 2 of Y axle location through guide rail; Constitute the XY axle locating platform of placement head, wherein the Y axle of Y axle location bow member 2 is located and Y is installed to guide rail 10 and Y axle driving linear motor stator electric 16 on the left bow member 2.1, and the Y axle drives the end that linear motor rotor 15 is installed in X axle location crossbeam 3; X axle location crossbeam 3 is installed on the set slide block of the guide rail 10 of the left and right sides, Y axle location bow member 2.1,2.2; On the crossbeam 3 of X axle location X axle motion guide rail 11 is installed, the stator 12 that the X axle drives linear electric motors is installed in the middle of the X axle motion guide rail 11, the mover 13 that the X axle drives linear electric motors is installed on the placement head mounting panel 14; Placement head mounting panel 14 is fixed on the set slide block of X axle motion guide rail 11, and above-mentioned feed appliance is mounted on the placement head mounting panel 14 with ejector half placement head 4.
Above-mentioned XY axle locating platform by a plurality of fot screws and parallels 9 horizontal supportings on ground; Above-mentioned X axle location crossbeam 3 is installed on the bow member 2 of Y axle location through guide rail.
Said suction nozzle storehouse 7 is installed in a side of lathe bed 1, and PCB substrate resiliency supported 6 is installed on the lathe bed 1 through mounting panel, and PCB substrate resiliency supported 6 is positioned in the middle of the fixing support rack 5.1 and removable bracing frame 5.2 of PCB substrate feed mechanism 5.
Above-mentionedly be directly installed on feed appliance with on the ejector half placement head 4, have strip garbage collection dish with ejector half belt feeder 8 with ejector half belt feeder 8.
Above-mentioned PCB substrate feed mechanism 5 includes fixing support rack 5.1, removable bracing frame 5.2, supporting base 5.3, transfer wide leading screw 5.4, transfer wide motor 5.5, guide rod 5.6, PCB substrate orientation cylinder 5.7; Fixing support rack 5.1 and supporting base 5.3 are installed on the lathe bed 1; The wide leading screw 5.4 of the accent of adjustable support frame width is installed on the supporting base 5.3; And transfer wide leading screw 5.4 and coaxial connection of output shaft of transferring wide motor 5.5; Removable bracing frame 5.2 is installed on the slide block of guide rod 5.6; Guide rod 5.6 is installed on the supporting base 5.3, overlaps PCB substrate belt synchronous driving mechanism 17 more and is installed in fixing support rack 5.1 and removable bracing frame 5.2 inboards respectively, and the quantity of the PCB substrate belt synchronous driving mechanism 17 that fixing support rack 5.1 and the 5.2 inboard feedings that are used for the PCB substrate of being installed of removable bracing frame transmit equates; Symmetric arrangement is used for confirming that the PCB substrate is installed in fixing support rack 5.1 at the PCB of the position of direction of feed substrate orientation cylinder 5.7.
Above-mentioned PCB substrate belt synchronous driving mechanism 17 includes the transmission synchronous machine 17.1 that is installed on the bracing frame, transmit be with 17.2 synchronously, driving wheel 17.3, guide wheel 17.4; Wherein driving wheel 17.3 and coaxial connection of output shaft of transmitting synchronous machine 17.1; The guide wheels 17.4 that are fixed with some directions that are used to change synchronous band, tensioning on the bracing frame and support the PCB substrate are with 17.2 to be connected with driving wheel 17.3 and guide wheel 17.4 for the transmission of PCB substrate the Motion Transmission of driving wheel 17.3 synchronously.
Above-mentioned PCB substrate feed mechanism 5 is provided with some covers according to the impulse stroke of chip mounter and fixed belt synchronous driving mechanism 17.Some cover belt synchronous drivings mechanism 17 is synchronized with the movement under the control of chip mounter, realizes the transmission of PCB substrate.
Above-mentioned PCB substrate resiliency supported 6 includes supporting bracket 6.1 and resiliency supported thimble 6.2, and wherein supporting bracket 6.1 is installed on the lathe bed 1, and plurality of elastic support pin 6.2 is arranged and is installed on the supporting bracket 6.1.
Said suction nozzle storehouse 7 includes suction nozzle storehouse installing rack 7.1, suction nozzle box 7.2, locking cylinder 7.3; Suction nozzle storehouse installing rack 7.1 is installed on the lathe bed 1; Suction nozzle box 7.2 is fixed on the suction nozzle storehouse installing rack 7.1, and locking cylinder 7.3 is installed in an end of suction nozzle box 7.2, is used for the suction nozzle of locking positioning in suction nozzle box 7.2 location holes; The piston rod of locking cylinder 7.3 and 7.4 coaxial connections of locking bar; Be processed with the location hole 7.5 of suction nozzle that is used to locate different size of different-diameter on the locking bar 7.4, hole set on location hole 7.5 and the suction nozzle box 7.2 is corresponding, and the edge of location hole 7.5 is processed with the arc section identical with the suction nozzle diameter; When locking bar 7.4 under the effect of the piston rod of locking cylinder 7.3, can lock and discharge suction nozzle; Said suction nozzle box 7.2 is provided with the suction nozzle location hole that is used to deposit the different size suction nozzle of several different sizes.
In the utility model when work, by the width of special-purpose chip mounter controller control PCB substrate feed mechanism 5 adjusting needs, be sent to the PCB substrate position of requirement simultaneously, then with the PCB substrate orientation on PCB substrate resiliency supported 6.The chip mounter controller sends instruction according to the chip position of programming or identification; Control XY locating platform; Drive feed appliance and position, and the control suction nozzle is from drawing electronic component and the action of accomplishing the PCB substrate that mounts with the ejector half belt feeder with 4 pairs of suction nozzles of ejector half placement head.The chip mounter controller can also be controlled placement head according to chip type and choose suitable suction nozzle from suction nozzle storehouse 7.

Claims (10)

1. direct-drive type high-speed and high-efficiency chip mounter; It is characterized in that including lathe bed (1), Y axle location bow member (2), X axle location crossbeam (3), feed appliance with ejector half placement head (4), PCB substrate feed mechanism (5), PCB substrate resiliency supported (6), suction nozzle storehouse (7), with ejector half belt feeder (8) and chip mounter controller; Wherein Y axle location bow member (2) is installed on the lathe bed (1); X axle location crossbeam (3) is installed in Y axle location bow member (2) and goes up the XY axle locating platform that constitutes placement head; Feed appliance is installed on the X axle location crossbeam (3) with ejector half placement head (4); PCB substrate feed mechanism (5) and PCB substrate resiliency supported (6) are installed on the lathe bed (1); Suction nozzle storehouse (7) is installed in a side of lathe bed (1); Be installed in feed appliance with on the ejector half placement head (4) with ejector half belt feeder (8); The PCB substrate is sent to the position of requirement and the PCB substrate feed mechanism (5) that is positioned on the PCB substrate resiliency supported (6) is connected with the chip mounter controller, from suction nozzle storehouse (7), choose suitable suction nozzle, and through suction nozzle from also being connected with ejector half placement head (4) with the feed appliance of completion with the chip mounter controller to the action that mounts of PCB substrate with ejector half belt feeder (8) absorption electronic component.
2. direct-drive type high-speed and high-efficiency chip mounter according to claim 1; It is characterized in that above-mentioned Y axle location bow member (2) includes left and right sides bow member (2.1,2.2) two parts; Left and right sides bow member (2.1,2.2) two parts are installed in respectively on the lathe bed (1); X axle location crossbeam (3) is installed on the Y axle location bow member (2) through guide rail; Constitute the XY axle locating platform of placement head; Wherein the Y axle of Y axle location bow member (2) is located and Y is installed to guide rail (10) and Y axle driving linear motor stator electric (16) on the left bow member (2.1); The Y axle drives the end that linear motor rotor (15) is installed in X axle location crossbeam (3), and X axle location crossbeam (3) is installed on the set slide block of the guide rail (10) of Y axle location left and right sides bow member (2.1,2.2), on the X axle location crossbeam (3) X axle motion guide rail (11) is installed; The stator (12) that the X axle drives linear electric motors is installed in the middle of the X axle motion guide rail (11); The mover (13) that the X axle drives linear electric motors is installed on the placement head mounting panel (14), and placement head mounting panel (14) is fixed on the set slide block of X axle motion guide rail (11), and above-mentioned feed appliance is mounted on the placement head mounting panel (14) with ejector half placement head (4).
3. direct-drive type high-speed and high-efficiency chip mounter according to claim 1, it is characterized in that above-mentioned XY axle locating platform by a plurality of fot screws and parallels (9) horizontal supporting on ground; Above-mentioned X axle location crossbeam (3) is installed on the Y axle location bow member (2) through guide rail.
4. direct-drive type high-speed and high-efficiency chip mounter according to claim 1; It is characterized in that said suction nozzle storehouse (7) is installed in a side of lathe bed (1); PCB substrate resiliency supported (6) is installed on the lathe bed (1) through mounting panel, and PCB substrate resiliency supported (6) is positioned in the middle of the fixing support rack (5.1) and removable bracing frame (5.2) of PCB substrate feed mechanism (5).
5. direct-drive type high-speed and high-efficiency chip mounter according to claim 1 is characterized in that above-mentionedly being directly installed on feed appliance with on the ejector half placement head (4) with ejector half belt feeder (8), has strip garbage collection dish with ejector half belt feeder (8).
6. according to each described direct-drive type high-speed and high-efficiency chip mounter of claim 1 to 5; It is characterized in that above-mentioned PCB substrate feed mechanism (5) includes fixing support rack (5.1), removable bracing frame (5.2), supporting base (5.3), transfers wide leading screw (5.4), transfers wide motor (5.5), guide rod (5.6), PCB substrate orientation cylinder (5.7); Fixing support rack (5.1) and supporting base (5.3) are installed on the lathe bed (1); The wide leading screw of accent (5.4) of adjustable support frame width is installed on the supporting base (5.3); And transfer wide leading screw (5.4) and coaxial connection of output shaft of transferring wide motor (5.5); Removable bracing frame (5.2) is installed on the slide block of guide rod (5.6); Guide rod (5.6) is installed on the supporting base (5.3); Many cover PCB substrate belt synchronous driving mechanisms (17) are installed in fixing support rack (5.1) and removable bracing frame (5.2) inboard respectively; PCB substrate belt synchronous driving mechanism (17) quantity that the inboard feeding that is used for the PCB substrate of being installed of fixing support rack (5.1) and removable bracing frame (5.2) transmits equates that symmetric arrangement is used for confirming that the PCB substrate is installed in fixing support rack (5.1) at the PCB of the position of direction of feed substrate orientation cylinder (5.7).
7. direct-drive type high-speed and high-efficiency chip mounter according to claim 6; It is characterized in that above-mentioned PCB substrate belt synchronous driving mechanism (17) includes the transmission synchronous machine (17.1), the transmission that are installed on the bracing frame and is with (17.2), driving wheel (17.3), guide wheel (17.4) synchronously; Wherein driving wheel (17.3) and coaxial connection of output shaft of transmitting synchronous machine (17.1); Be fixed with some be used to change direction, the tensioning of synchronous band and the guide wheels (17.4) that support the PCB substrate on the bracing frame, be with (17.2) to be connected synchronously for the transmission of PCB substrate the Motion Transmission of driving wheel (17.3) with driving wheel (17.3) and guide wheel (17.4).
8. direct-drive type high-speed and high-efficiency chip mounter according to claim 7 is characterized in that above-mentioned PCB substrate feed mechanism (5) is provided with some covers according to the impulse stroke of chip mounter and fixed belt synchronous driving mechanism (17).
9. direct-drive type high-speed and high-efficiency chip mounter according to claim 8; It is characterized in that above-mentioned PCB substrate resiliency supported (6) includes supporting bracket (6.1) and resiliency supported thimble (6.2); Wherein supporting bracket (6.1) is installed on the lathe bed (1), and plurality of elastic support pin (6.2) is arranged and is installed on the supporting bracket (6.1).
10. direct-drive type high-speed and high-efficiency chip mounter according to claim 9; It is characterized in that said suction nozzle storehouse (7) includes suction nozzle storehouse installing rack (7.1), suction nozzle box (7.2), locking cylinder (7.3); Suction nozzle storehouse installing rack (7.1) is installed on the lathe bed (1); Suction nozzle box (7.2) is fixed on the suction nozzle storehouse installing rack (7.1), and locking cylinder (7.3) is installed in an end of suction nozzle box (7.2), is used for the suction nozzle of locking positioning in suction nozzle box (7.2) location hole; The piston rod of locking cylinder (7.3) and coaxial connection of locking bar (7.4); Be processed with the location hole (7.5) of suction nozzle that is used to locate different size of different-diameter on the locking bar (7.4), it is corresponding that location hole (7.5) and suction nozzle box (7.2) are gone up set hole, and the edge of location hole (7.5) is processed with the arc section identical with the suction nozzle diameter; When locking bar (7.4) under the effect of the piston rod of locking cylinder (7.3), can lock and discharge suction nozzle; Said suction nozzle box (7.2) is provided with the suction nozzle location hole that is used to deposit the different size suction nozzle of several different sizes.
CN2011205722843U 2011-12-31 2011-12-31 Direct-drive high-speed and high-efficiency chip mounter Expired - Fee Related CN202455669U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN2011205722843U CN202455669U (en) 2011-12-31 2011-12-31 Direct-drive high-speed and high-efficiency chip mounter

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Application Number Priority Date Filing Date Title
CN2011205722843U CN202455669U (en) 2011-12-31 2011-12-31 Direct-drive high-speed and high-efficiency chip mounter

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102686038A (en) * 2011-12-31 2012-09-19 广东工业大学 Direct drive high-speed efficient chip mounter
CN105149940A (en) * 2015-09-10 2015-12-16 来安县新元机电设备设计有限公司 LED lamp bead assembling device
CN105682371A (en) * 2016-03-12 2016-06-15 中山市鸿程科研技术服务有限公司 Material-inlet end structure of chip mounter
CN106304677A (en) * 2015-05-14 2017-01-04 广东木几智能装备有限公司 Both arms bull chip mounter
CN109904097A (en) * 2019-03-04 2019-06-18 东莞倍胜智能科技有限公司 A kind of modular multi-function IC chip mounting device

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102686038A (en) * 2011-12-31 2012-09-19 广东工业大学 Direct drive high-speed efficient chip mounter
CN102686038B (en) * 2011-12-31 2015-07-08 广东工业大学 Direct drive high-speed efficient chip mounter
CN106304677A (en) * 2015-05-14 2017-01-04 广东木几智能装备有限公司 Both arms bull chip mounter
CN105149940A (en) * 2015-09-10 2015-12-16 来安县新元机电设备设计有限公司 LED lamp bead assembling device
CN105149940B (en) * 2015-09-10 2017-07-25 扬州市国光照明集团有限公司 LED lamp bead assembles equipment
CN105682371A (en) * 2016-03-12 2016-06-15 中山市鸿程科研技术服务有限公司 Material-inlet end structure of chip mounter
CN109904097A (en) * 2019-03-04 2019-06-18 东莞倍胜智能科技有限公司 A kind of modular multi-function IC chip mounting device

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