CN215746932U - Automatic get PCB board equipment - Google Patents

Automatic get PCB board equipment Download PDF

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Publication number
CN215746932U
CN215746932U CN202121138943.2U CN202121138943U CN215746932U CN 215746932 U CN215746932 U CN 215746932U CN 202121138943 U CN202121138943 U CN 202121138943U CN 215746932 U CN215746932 U CN 215746932U
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China
Prior art keywords
driving
driven
feeding
clamping
plate
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Expired - Fee Related
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CN202121138943.2U
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Chinese (zh)
Inventor
刘进
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Dongguan Guanjia Electronic Equipment Co Ltd
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Dongguan Guanjia Electronic Equipment Co Ltd
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Priority to CN202121138943.2U priority Critical patent/CN215746932U/en
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Abstract

The utility model relates to the technical field of automatic PCB (printed circuit board) taking, in particular to automatic PCB taking equipment which comprises a rack, a feeding device, a lifting positioning device, a plate blanking device, a material taking robot, a material taking device, a cover plate backflow device and a PCB tin passing jig, wherein the feeding device is installed on the rack; the full-automatic feeding, positioning, cover removing, plate taking, backflow and other work are realized, the automation degree is high, and manpower and material resources are saved.

Description

Automatic get PCB board equipment
Technical Field
The utility model relates to the technical field of automatic PCB fetching, in particular to automatic PCB fetching equipment.
Background
Automation technology is widely used in industry, agriculture, military, scientific research, transportation, commerce, medical treatment, services, and home. The automatic technology can not only liberate people from heavy physical labor, partial mental labor and severe and dangerous working environments, but also expand the functions of human organs, greatly improve the labor productivity and enhance the ability of human to know the world and transform the world. Large plants in automation systems are also referred to as automation devices. Refers to a process in which a machine or apparatus automatically operates or controls according to a prescribed program or instruction without human intervention.
A PCB, also known as a printed circuit board, is an important electronic component, which is a support for electronic components and a carrier for electrical connection of electronic components. Before the PCB is used, electronic elements need to be inserted into the PCB and then subjected to wave soldering, blanking is performed after wave soldering is completed, manual blanking is performed after wave soldering is completed in the prior art, the defects of low working efficiency, high labor cost and the like exist through manual blanking, and therefore automatic design can be performed on blanking of the PCB.
SUMMERY OF THE UTILITY MODEL
In order to solve the problems, the utility model provides the automatic PCB fetching equipment which can realize the full-automatic work of feeding, positioning, cover dismounting, board fetching, backflow and the like, has high automation degree and saves manpower and material resources.
The technical scheme adopted by the utility model is as follows: an automatic PCB (printed circuit board) taking device comprises a rack, a feeding device arranged on the rack, a lifting positioning device arranged on the rack and connected with the feeding device, a plate blanking device arranged on the rack and positioned at one side of the lifting positioning device, a taking robot arranged on the rack and positioned at one side of the plate blanking device, a taking device arranged on the taking robot, a cover plate backflow device arranged on the rack and positioned at one side of the taking robot, and a PCB tin passing jig conveyed and guided by the feeding device; the material taking device comprises a substrate, a driving device arranged on the substrate, a driving clamping element movably arranged on the substrate and connected with the driving device, a driven clamping element movably arranged on the substrate, and a synchronous transmission device for linking the driving clamping element and the driven clamping element; a clamping position is formed between the driving clamping element and the driven clamping element.
The feeding device comprises a feeding bottom plate, a feeding jacking mechanism arranged on the feeding bottom plate, a feeding adjusting mechanism arranged on the feeding jacking mechanism, and a feeding conveying mechanism arranged on the feeding adjusting mechanism;
the feeding jacking mechanism comprises a feeding guide rod and a feeding driving cylinder, wherein the feeding guide rod can be movably arranged on the feeding bottom plate, the feeding driving cylinder is connected with the feeding adjusting mechanism, and the feeding guide rod is connected with the feeding adjusting mechanism;
the further improvement to the above scheme is that the feeding adjusting mechanism comprises a feeding fixing seat, a feeding adjusting seat and a feeding adjusting screw rod connected to the feeding fixing seat and used for adjusting the feeding adjusting seat, and the feeding conveying mechanism comprises a feeding fixing conveying group arranged on the feeding fixing seat and a feeding adjusting conveying group arranged on the feeding adjusting seat.
The further improvement of the proposal is that the lifting positioning device comprises a lifting driving mechanism, a lifting conveying mechanism connected with the lifting driving mechanism and a jig backflow mechanism arranged at the lower side of the lifting driving mechanism;
the further improvement of the scheme is that the lifting driving mechanism comprises a lifting transmission module and a lifting transmission frame connected to the lifting transmission module, the lifting conveying mechanism is installed on the lifting transmission frame, the lifting conveying mechanism is provided with a lifting adjusting assembly, and the jig backflow mechanism is provided with a backflow adjusting assembly.
The plate blanking device comprises a blanking bottom plate, a blanking adjusting mechanism arranged on the blanking bottom plate and a blanking conveying mechanism arranged on the blanking adjusting mechanism;
the further improvement of the scheme is that the blanking adjusting mechanism comprises a blanking fixing seat, a blanking adjusting seat and a blanking adjusting screw rod which is connected with the blanking fixing seat and used for adjusting the blanking adjusting seat, and the blanking conveying mechanism comprises a blanking fixing conveying group arranged on the blanking fixing seat and a blanking adjusting conveying group arranged on the blanking adjusting seat.
The further improvement of the above scheme is that the material taking robot comprises a robot base, a first driving seat arranged on the robot base, a first swing arm connected to the first driving seat, a second driving seat connected to the first swing arm, a second swing arm connected to the second driving seat, and a driving shaft arranged on the second swing arm, wherein the driving shaft is connected with a material taking device.
The scheme is further improved in that the substrate is provided with a connecting column, the connecting column is provided with a connecting hole, the connecting column is provided with a cutting groove, the cutting groove is communicated with the connecting hole, one side of the connecting column is provided with a locking threaded hole, and the locking threaded hole is communicated with the cutting groove; a position sensor is installed on one side of the base plate, a position sensing piece is correspondingly arranged on the position sensor, the position sensing piece is installed on the driving clamping element and/or the driven clamping element, a material sensor is installed on the base plate, and the material sensor faces to the clamping position;
the driving device comprises a driving base arranged on the substrate, a driving motor arranged on the driving base, a transmission screw rod arranged on the driving base and connected with the driving motor, and a transmission seat connected with the transmission screw rod and capable of following the transmission of the transmission screw rod, wherein the transmission seat is connected with the driving clamping element; the driving motor is a servo motor, a coupling is arranged at the driving end of the driving motor, and the coupling is connected with the transmission screw rod;
the further improvement of the scheme is that the synchronous transmission device comprises a first transmission wheel and a second transmission wheel which are respectively arranged on two sides of the substrate, a synchronous belt is arranged between the first transmission wheel and the second transmission wheel in a transmission mode and comprises a first reciprocating transmission part and a second reciprocating transmission part, the first reciprocating transmission part is connected with the driving clamping element, and the second reciprocating transmission part is connected with the driven clamping element.
The active clamping element comprises an active sliding rail connected with the substrate, an active clamping plate slidably mounted on the active sliding rail, a first active clamping jaw mounted on the active clamping plate, and a second active clamping jaw, wherein an active cover opening pressing sheet is arranged on two sides of the first active clamping jaw, an active clamping groove is formed in the second active clamping jaw, the active clamping plate is connected with a driving device, and an active clamping step is arranged on the first active clamping jaw;
the scheme is further improved in that one side of the active clamping plate, which is connected with the active clamping plate, is provided with an active connecting block, the active connecting block is connected with an active pressing block, and the active pressing block fixes the first reciprocating transmission part on the active connecting block;
the scheme is further improved in that an active clamping positioning hole is formed in the end face of the second active clamping jaw, the active clamping positioning hole penetrates through the active clamping groove, and an active clamping positioning shaft is mounted in the active clamping positioning hole.
The scheme is further improved in that the driven clamping element comprises a driven slide rail connected with the base plate, a driven clamping plate slidably mounted on the driven slide rail, a first driven clamping jaw mounted on the driven clamping plate, and a second driven clamping jaw, wherein a driven cover opening pressing sheet is arranged on two sides of the first driven clamping jaw, a driven clamping groove is formed in the second driven clamping jaw, and a driven clamping step is formed in the first driven clamping jaw;
the scheme is further improved in that a driven connecting block is installed on one side, connected with the driven clamping plate, of the driven clamping plate, the driven connecting block is connected with a driven pressing block, and the driven pressing block fixes the second reciprocating transmission part on the driven connecting block;
the further improvement of the scheme is that a driven clamping positioning hole is formed in the end face of the second driven clamping jaw, the driven clamping positioning hole penetrates through the driven clamping groove, and a driven clamping positioning shaft is mounted in the driven clamping positioning hole.
The PCB tin-passing jig comprises a jig base, a jig pressing plate and a jig cover plate, wherein the jig pressing plate is provided with the jig base, the jig cover plate is arranged on the jig pressing plate, a first fastener and a second fastener are hinged to two sides of the jig cover plate respectively, the first fastener corresponds to a driving cover opening pressing sheet, the second fastener corresponds to a driven cover opening pressing sheet, the jig base is provided with a first connecting table corresponding to the first fastener, and a second connecting table corresponding to the second fastener is arranged.
The further improvement of the scheme is that the cover plate backflow device comprises a plane conveying mechanism and an inclined plane conveying mechanism connected with the plane conveying mechanism.
The utility model has the beneficial effects that:
compared with the traditional semi-automatic PCB taking equipment, the full-automatic PCB taking equipment has the advantages that the PCB which is subjected to tin-passing is taken in a full-automatic mode, the jig which is subjected to tin-passing is sent to the lifting positioning device through the feeding device for positioning, then the taking robot drives the taking device to remove the cover plate of the PCB which is subjected to tin-passing jig, the PCB is taken out simultaneously after removal, the taken PCB is placed into the plate blanking device for blanking, the cover plate is placed into the cover plate backflow device for backflow through the taking robot, the lifting positioning device enables the base of the jig to descend for backflow conveying, full-automatic feeding, positioning, cover removing, plate taking, backflow and the like are achieved, the automation degree is high, and manpower and material resources are saved. The PCB tin-passing jig comprises a rack, a feeding device, a lifting and positioning device, a plate blanking device, a material taking robot, a material taking device, a cover plate backflow device and a PCB tin-passing jig, wherein the feeding device is arranged on the rack; the PCB after passing through the tin is automatically disassembled and separated and conveyed to be discharged and reflowed, so that the whole automation degree is high, and the automatic production efficiency is high.
The material taking device comprises a substrate, a driving device arranged on the substrate, a driving clamping element movably arranged on the substrate and connected with the driving device, a driven clamping element movably arranged on the substrate, and a synchronous transmission device for linking the driving clamping element and the driven clamping element; a clamping position is formed between the driving clamping element and the driven clamping element, the PCB and the cover plate are clamped and fixed through the clamping position, the whole structure is reliable, and the material taking precision is high. The driving device is matched with the synchronous transmission device to drive the driving clamping element and the driven clamping element to clamp the PCB, the PCB with different sizes can be clamped and fixed, the clamping and transporting process is stable and reliable, the application range is wide, single-drive reciprocating mirror image transmission is realized under the matching of the synchronous transmission device, the transmission precision is high, and the clamping stability is good.
Synchronous drive device is including installing in the first drive wheel and the second drive wheel of base plate both sides respectively, the transmission is provided with the hold-in range between first drive wheel and the second drive wheel, the hold-in range includes first reciprocal transmission portion and the reciprocal transmission portion of second, first reciprocal transmission portion is connected with initiative clamping element, the reciprocal transmission portion of second is connected with driven clamping element, and through two sets of drive wheel cooperation hold-in range transmission, the hold-in range sets up two sets of reciprocal transmission portions and is used for reciprocal mirror image transmission, has realized the mirror image centre gripping action under cooperation drive arrangement's effect, and centre gripping stability is good, and the structure is reliable.
Drawings
FIG. 1 is a schematic perspective view of an apparatus for automatically picking up PCB boards according to the present invention;
FIG. 2 is a schematic perspective view of a feeding device of the apparatus for automatically taking PCB boards in FIG. 1;
FIG. 3 is a schematic perspective view of a lifting and positioning device of the apparatus for automatically picking up PCB boards in FIG. 1;
fig. 4 is a schematic perspective view of a plate blanking device of the automatic PCB taking apparatus in fig. 1;
fig. 5 is a schematic perspective view of a material taking robot of the apparatus for automatically taking a PCB board in fig. 1;
fig. 6 is a schematic perspective view of a material taking device of the apparatus for automatically taking a PCB board in fig. 1;
FIG. 7 is a perspective view of another view of a material taking device of the apparatus for automatically taking PCB boards in FIG. 1;
FIG. 8 is a perspective view of another view of a material pick-up device of the apparatus for automatically picking up PCB boards in FIG. 1;
FIG. 9 is a schematic perspective view of a PCB soldering jig of the automatic PCB picking apparatus in FIG. 1;
fig. 10 is a schematic perspective view of a cover plate reflow apparatus of the apparatus for automatically taking a PCB of fig. 1.
Description of reference numerals: the automatic feeding device comprises a frame 1, a feeding device 2, a feeding bottom plate 21, a feeding jacking mechanism 22, a feeding guide rod 221, a feeding driving cylinder 222, a feeding adjusting mechanism 23, a feeding fixing seat 231, a feeding adjusting seat 232, a feeding adjusting screw 233, a feeding conveying mechanism 24, a feeding fixing conveying group 241, a feeding adjusting conveying group 242, a lifting positioning device 3, a lifting driving mechanism 31, a lifting transmission module 311, a lifting transmission frame 312, a lifting conveying mechanism 32, a lifting adjusting component 321, a jig backflow mechanism 33, a backflow adjusting component 331, a plate blanking device 4, a blanking bottom plate 41, a blanking adjusting mechanism 42, a blanking fixing seat 421, a blanking adjusting seat 422, a blanking adjusting screw 423, a blanking conveying mechanism 43, a blanking fixing conveying group 431, a blanking adjusting conveying group 432, a material taking robot 5, a robot base 51, a first driving seat 52, a first swing arm 53, a second driving seat 54, a first swing arm, a second swing arm 53, a second driving seat 54, a second swing arm, a third swing arm, a fourth swing arm, a, The second swing arm 55, the driving shaft 56, the material taking device 6, the base plate 61, the connecting column 611, the connecting hole 6111, the cutting groove 6112, the locking threaded hole 6113, the position sensor 612, the position sensing piece 613, the material sensor 614, the driving device 62, the driving base 621, the driving motor 622, the driving screw 623, the driving seat 624, the driving clamping element 63, the driving slide rail 631, the driving clamping plate 632, the driving connecting block 6321, the driving pressing block 6322, the first driving clamping jaw 633, the driving cover pressing sheet 6331, the driving clamping step 6332, the second driving clamping jaw 634, the driving clamping groove 6341, the driving clamping positioning hole 6342, the driven clamping element 64, the driven slide rail 641, the driven clamping plate 642, the driven connecting block 6421, the driven pressing block 6422, the first driven clamping jaw 643, the driven cover pressing sheet 6431, the driven clamping step 6432, the second driven clamping jaw 644, the driven clamping groove 6441, the driven clamping positioning hole 6442, the synchronous transmission device 65, the synchronous transmission device, The PCB tin-passing jig comprises a first transmission wheel 651, a second transmission wheel 652, a synchronous belt 653, a cover plate reflux device 7, a plane conveying mechanism 71, an inclined plane conveying mechanism 72, a PCB tin-passing jig 8, a jig base 81, a jig pressing plate 82, a jig cover plate 83, a first fastener 831 and a second fastener 832.
Detailed Description
To facilitate an understanding of the utility model, the utility model will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.
It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.
Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model.
As shown in fig. 1 to 10, an automatic PCB taking apparatus includes a frame 1, a feeding device 2 installed in the frame 1, a lifting and positioning device 3 installed in the frame 1 and connected to the feeding device 2, a plate blanking device 4 installed in the frame 1 and located on one side of the lifting and positioning device 3, a material taking robot 5 installed in the frame 1 and located on one side of the plate blanking device 4, a material taking device 6 installed in the material taking robot 5, a cover plate backflow device 7 installed in the frame 1 and located on one side of the material taking robot 5, and a PCB tin passing jig 8 conveyed and guided by the feeding device 2.
Referring to fig. 2, the feeding device 2 includes a feeding bottom plate 21, a feeding jacking mechanism 22 installed on the feeding bottom plate 21, a feeding adjusting mechanism 23 installed on the feeding jacking mechanism 22, and a feeding conveying mechanism 24 installed on the feeding adjusting mechanism 23; the feeding jacking mechanism 22 is used for driving the feeding adjusting mechanism 23 to lift, so that the PCB can be conveniently connected to the tin passing jig 8 for conveying, and the feeding adjusting mechanism 23 is used for adjusting and adapting to conveying of jigs of different sizes.
The feeding jacking mechanism 22 comprises a feeding guide rod 221 capable of moving on the feeding bottom plate 21 and a feeding driving cylinder 222, the feeding driving cylinder 222 is connected with the feeding adjusting mechanism 23, and the feeding guide rod 221 is connected with the feeding adjusting mechanism 23; the feeding driving cylinder 222 drives the lifting to realize lifting, and the feeding driving cylinder is convenient to match with material receiving and feeding at different heights.
Pan feeding adjustment mechanism 23 includes pan feeding fixing base 231, pan feeding regulation seat 232, and connects in pan feeding fixing base 231 and is used for pan feeding regulation seat 232 to adjust pan feeding adjusting screw 233, pan feeding conveying mechanism 24 is used for adjusting the not use of co-altitude structure through pan feeding adjusting screw 233 including installing pan feeding fixed transport group 241 of pan feeding fixing base 231 and installing pan feeding regulation transport group 242 in pan feeding regulation seat 232.
Referring to fig. 3, the lifting positioning device 3 includes a lifting driving mechanism 31, a lifting conveying mechanism 32 connected to the lifting driving mechanism 31, and a jig returning mechanism 33 disposed at the lower side of the lifting driving mechanism 31; the lifting driving mechanism 31 drives the lifting conveying mechanism 32 to lift, and the jig base after the cover is detached and the plate is taken back flows by the jig back flow mechanism 33, so that the back flow use is convenient, and the automation degree is high.
The lifting driving mechanism 31 comprises a lifting transmission module 311, a lifting transmission frame 312 connected to the lifting transmission module 311, the lifting conveying mechanism 32 is installed on the lifting transmission frame 312, the lifting conveying mechanism 32 is provided with a lifting adjusting component 321, the jig backflow mechanism 33 is provided with a backflow adjusting component 331, the lifting transmission module 311 and the lifting transmission frame 312 are matched to lift, the precision is high, and the lifting adjusting component 321 and the backflow adjusting component 331 are conveniently adapted to jigs of different sizes to adjust and convey.
Referring to fig. 4, the plate blanking device 4 includes a blanking bottom plate 41, a blanking adjusting mechanism 42 installed on the blanking bottom plate 41, and a blanking conveying mechanism 43 installed on the blanking adjusting mechanism 42; the PCB can be conveniently connected for conveying, and the blanking adjusting mechanism 42 is used for adjusting and adapting to conveying of plates with different sizes.
The blanking adjusting mechanism 42 comprises a blanking fixing seat 421, a blanking adjusting seat 422 and a blanking adjusting screw 423 which is connected to the blanking fixing seat 421 and used for adjusting the blanking adjusting seat 422, the blanking conveying mechanism 43 comprises a blanking fixing conveying group 431 installed on the blanking fixing seat 421 and a blanking adjusting conveying group 432 installed on the blanking adjusting seat 422, the blanking adjusting screw 423 is used for adjusting structures with different heights to use, and the whole automation degree is high.
Referring to fig. 5, the material taking robot 5 includes a robot base 51, a first driving seat 52 installed on the robot base 51, a first swing arm 53 connected to the first driving seat 52, a second driving seat 54 connected to the first swing arm 53, a second swing arm 55 connected to the second driving seat 54, and a driving shaft 56 installed on the second swing arm 55, wherein the driving shaft 56 is connected to the material taking device 6, and the robot driving with a multi-axis structure is adopted, so that the flexibility is high, the material taking precision is high, and the stability is good.
Referring to fig. 6 to 8, the material taking device 6 includes a substrate 61, a driving device 62 mounted on the substrate 61, a driving clamping element 63 movably mounted on the substrate 61 and connected to the driving device 62, a driven clamping element 64 movably mounted on the substrate 61, and a synchronous transmission device 65 linking the driving clamping element 63 and the driven clamping element 64; a clamping position is formed between the driving clamping element 63 and the driven clamping element 64, the PCB and the cover plate are clamped and fixed through the clamping position, the whole structure is reliable, and the material taking precision is high. The driving device 62 is matched with the synchronous transmission device 65 to drive the driving clamping element 63 and the driven clamping element 64 to clamp the PCB, the PCB with different sizes can be clamped and fixed, the clamping and transporting process is stable and reliable, the application range is wide, single-drive reciprocating mirror image transmission is realized under the matching of the synchronous transmission device 65, the transmission precision is high, and the clamping stability is good.
The substrate 61 is provided with a connecting column 611, the connecting column 611 is provided with a connecting hole 6111, the connecting column 611 is provided with a cutting groove 6112, the cutting groove 6112 is communicated with the connecting hole 6111, one side of the connecting column 611 is provided with a locking threaded hole 6113, and the locking threaded hole 6113 is communicated with the cutting groove 6112; a position sensor 612 is mounted on one side of the substrate 61, a position sensing piece 613 is correspondingly arranged on the position sensor 612, the position sensing piece 613 is mounted on the driving clamping element 63 and/or the driven clamping element 64, a material sensor 614 is mounted on the substrate 61, and the material sensor 614 faces towards the clamping position; specifically, the connecting hole 6111 is used for connecting a driving part, and the cutting groove 6112 is arranged to be matched with the locking threaded hole 6113 for locking connection, so that the stability of the structure is guaranteed, the assembly is convenient, and the structure is reliable. Under the cooperation through position inductor 612 and position response piece 613 for respond to the clamping position, conveniently realize intelligent control, material inductor 614 is used for responding to the PCB board of centre gripping, conveniently realizes intelligent control.
The driving device 62 comprises a driving base 621 mounted on the substrate 61, a driving motor 622 mounted on the driving base 621, a transmission screw 623 mounted on the driving base 621 and connected to the driving motor 622, and a transmission seat 624 connected to the transmission screw 623 and capable of following the transmission of the transmission screw 623, wherein the transmission seat 624 is connected to the driving clamping element 63; the driving motor 622 is a servo motor, a coupling is arranged at the driving end of the driving motor 622, and the coupling is connected with the transmission screw 623; the driving motor 622 is used for driving the transmission screw 623, and the transmission screw 623 drives the transmission seat 624 to enable the driving clamping element 63 to perform linear transmission, and under corresponding action, the synchronous transmission device 65 and the driven clamping element 64 are driven to perform mirror image transmission. Adopt servo motor, conveniently realize intelligent control, and the shaft coupling cooperates drive screw 623 to carry out the transmission, and it is good to connect transmission stability.
Synchronous drive device 65 is including installing in the first drive wheel 651 and the second drive wheel 652 of base plate 61 both sides respectively, the transmission is provided with hold-in range 653 between first drive wheel 651 and the second drive wheel 652, hold-in range 653 includes first reciprocal transmission portion and the reciprocal transmission portion of second, first reciprocal transmission portion is connected with initiative clamping element 63, the reciprocal transmission portion of second is connected with driven clamping element 64, and through the transmission of two sets of drive wheel cooperation hold-in range 653, hold-in range 653 sets up two sets of reciprocal transmission portions and is used for reciprocal mirror image transmission, has realized the mirror image centre gripping action under the effect of cooperation drive arrangement 62, and the centre gripping stability is good, and the structure is reliable.
The active clamping element 63 includes an active slide rail 631 connected to the substrate 61, an active clamping plate 632 slidably mounted on the active slide rail 631, a first active clamping jaw 633 mounted on the active clamping plate 632, and a second active clamping jaw 634, wherein an active cover opening pressing sheet 6331 is disposed on two sides of the first active clamping jaw 633, an active clamping groove 6341 is disposed on the second active clamping jaw 634, the active clamping plate 632 is connected to the driving device 62, and the first active clamping jaw 633 is provided with an active clamping step 6332; the driven clamping element 64 comprises a driven sliding rail 641 connected with the base plate 61, a driven clamping plate 642 slidably mounted on the driven sliding rail 641, a first driven clamping jaw 643 mounted on the driven clamping plate 642, and a second driven clamping jaw 644, wherein a driven cover opening pressing sheet 6431 is arranged on two sides of the first driven clamping jaw 643, a driven clamping groove 6441 is formed in the second driven clamping jaw 644, and a driven clamping step 6432 is arranged on the first driven clamping jaw 643; the first driving clamping jaw 633 and the first driven clamping jaw 643 are matched for clamping a jig cover plate, the buckling structure is opened through an uncovering pressing sheet in the clamping process, subsequent clamping blanking is facilitated, the second driving clamping jaw 634 is matched with the second driven clamping jaw 644 and used for clamping and taking the PCB, the whole automation degree is high, and one material taking structure is used for dual material taking.
An active connecting block 6321 is installed at one side of the active clamping plate 632, which is connected with the active clamping plate 632, the active connecting block 6321 is connected with an active pressing block 6322, and the active pressing block 6322 fixes the first reciprocating transmission part to the active connecting block 6321; a driven connecting block 6421 is installed on one side, connected with the driven clamping plate 642, of the driven clamping plate 642, a driven pressing block 6422 is connected to the driven connecting block 6421, and the driven pressing block 6422 fixes the second reciprocating transmission part to the driven connecting block 6421; through connecting block and briquetting cooperation with the structure be connected with the reciprocal transmission structure of hold-in range 653, connection stability is good, conveniently realizes the reciprocal transmission of mirror image.
An active clamping positioning hole 6342 is formed in an end surface of the second active clamping jaw 634, the active clamping positioning hole 6342 penetrates through the active clamping groove 6341, and an active clamping positioning shaft is installed in the active clamping positioning hole 6342; a driven clamping positioning hole 6442 is formed in the end face of the second driven clamping jaw 644, the driven clamping positioning hole 6442 penetrates through the driven clamping groove 6441, and a driven clamping positioning shaft is mounted in the driven clamping positioning hole 6442; the clamping and positioning shaft can clamp and position the PCB, so that the material taking precision and stability are further ensured.
Referring to fig. 9, the PCB tin-passing jig 8 includes a jig base 81, a jig pressing plate 82 provided with the jig base 81, and a jig cover plate 83 provided with the jig pressing plate 82, two sides of the jig cover plate 83 are respectively hinged with a first fastening member 831 and a second fastening member 832, the first fastening member 831 corresponds to the active cover-opening pressing plate 6331, the second fastening member 832 corresponds to the driven cover-opening pressing plate 6431, the jig base 81 is provided with a first connecting platform corresponding to the first fastening member 831, a second connecting platform corresponding to the second fastening member 832 is provided, the jig pressing plate 82 is matched with the PCB for fixation, and the fastening member on the jig cover plate 83 is driven by the cover-opening pressing plate, so that the jig cover plate 83 can be separated from the jig base 81.
Referring to fig. 10, the cover plate reflow apparatus 7 includes a plane conveying mechanism 71 and an inclined conveying mechanism 72 connected to the plane conveying mechanism 71, and adopts a plane and a lower conveying structure to cooperate with reflow conveying, so that the degree of automation is high.
The PCB after tin coating is fully automatically taken, the jig after tin coating is fed to the lifting positioning device 3 through the feeding device 2 for positioning, the taking robot 5 drives the taking device 6 to remove the cover plate of the PCB tin coating jig 8, the PCB is taken out simultaneously after the removal, the taken PCB is placed into the plate blanking device 4 for blanking, the cover plate is placed into the cover plate backflow device 7 for backflow through the taking device 6 driven by the taking robot 5, the jig base 81 is also lowered for backflow conveying through the lifting positioning device 3, the full-automatic feeding, positioning, cover removing, plate taking, backflow and other work is realized, the automation degree is high, and manpower and material resources are saved. Specifically, the automatic tin-plating device is provided with a rack 1, a feeding device 2 installed on the rack 1, a lifting positioning device 3 installed on the rack 1 and connected with the feeding device 2, a plate blanking device 4 installed on the rack 1 and positioned on one side of the lifting positioning device 3, a taking robot 5 installed on the rack 1 and positioned on one side of the plate blanking device 4, a taking device 6 installed on the taking robot 5, a cover plate backflow device 7 installed on the rack 1 and positioned on one side of the taking robot 5, and a PCB tin-plating jig 8 conveyed and guided by the feeding device 2; the PCB after passing through the tin is automatically disassembled and separated and conveyed to be discharged and reflowed, so that the whole automation degree is high, and the automatic production efficiency is high.
The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. The utility model provides an automatic get PCB board equipment which characterized in that: the PCB tin-passing jig comprises a rack, a feeding device, a lifting positioning device, a plate blanking device, a material taking robot, a material taking device, a cover plate backflow device and a PCB tin-passing jig, wherein the feeding device is installed on the rack; the material taking device comprises a substrate, a driving device arranged on the substrate, a driving clamping element movably arranged on the substrate and connected with the driving device, a driven clamping element movably arranged on the substrate, and a synchronous transmission device for linking the driving clamping element and the driven clamping element; a clamping position is formed between the driving clamping element and the driven clamping element;
the substrate is provided with a connecting column, the connecting column is provided with a connecting hole, the connecting column is provided with a cutting groove, the cutting groove is communicated to the connecting hole, one side of the connecting column is provided with a locking threaded hole, and the locking threaded hole is communicated with the cutting groove; the material clamping device comprises a base plate, and is characterized in that a position sensor is installed on one side of the base plate, a position sensing piece is correspondingly arranged on the position sensor, the position sensing piece is installed on a driving clamping element and/or a driven clamping element, a material sensor is installed on the base plate, and the material sensor faces to a clamping position.
2. The automatic PCB board fetching device of claim 1, wherein: the feeding device comprises a feeding bottom plate, a feeding jacking mechanism arranged on the feeding bottom plate, a feeding adjusting mechanism arranged on the feeding jacking mechanism, and a feeding conveying mechanism arranged on the feeding adjusting mechanism;
the feeding jacking mechanism comprises a feeding guide rod and a feeding driving cylinder, the feeding guide rod can be movably arranged on the feeding bottom plate, the feeding driving cylinder is connected with the feeding adjusting mechanism, and the feeding guide rod is connected with the feeding adjusting mechanism;
the pan feeding adjustment mechanism includes pan feeding fixing base, pan feeding regulation seat and connects in the pan feeding fixing base and is used for pan feeding regulation seat to adjust the pan feeding adjusting screw, pan feeding conveying mechanism is including installing in the fixed group of carrying of pan feeding fixing base and installing in the pan feeding of pan feeding regulation seat and adjust the group of carrying.
3. The automatic PCB board fetching device of claim 1, wherein: the lifting positioning device comprises a lifting driving mechanism, a lifting conveying mechanism connected with the lifting driving mechanism and a jig backflow mechanism arranged on the lower side of the lifting driving mechanism;
the lifting driving mechanism comprises a lifting transmission module and a lifting transmission frame connected to the lifting transmission module, the lifting conveying mechanism is installed on the lifting transmission frame, the lifting conveying mechanism is provided with a lifting adjusting assembly, and the jig backflow mechanism is provided with a backflow adjusting assembly.
4. The automatic PCB board fetching device of claim 1, wherein: the plate blanking device comprises a blanking bottom plate, a blanking adjusting mechanism arranged on the blanking bottom plate and a blanking conveying mechanism arranged on the blanking adjusting mechanism;
the blanking adjusting mechanism comprises a blanking fixing seat, a blanking adjusting seat and a blanking adjusting screw rod, wherein the blanking adjusting screw rod is connected to the blanking fixing seat and used for adjusting the blanking adjusting seat, and the blanking conveying mechanism comprises a blanking fixed conveying group arranged on the blanking fixing seat and a blanking adjusting conveying group arranged on the blanking adjusting seat.
5. The automatic PCB board fetching device of claim 1, wherein: the material taking robot comprises a robot base, a first driving seat arranged on the robot base, a first swing arm connected to the first driving seat, a second driving seat connected to the first swing arm, a second swing arm connected to the second driving seat, and a driving shaft arranged on the second swing arm, wherein the driving shaft is connected with a material taking device.
6. The automatic PCB board fetching device of claim 1, wherein: the substrate is provided with a connecting column, the connecting column is provided with a connecting hole, the connecting column is provided with a cutting groove, the cutting groove is communicated to the connecting hole, one side of the connecting column is provided with a locking threaded hole, and the locking threaded hole is communicated with the cutting groove; a position sensor is installed on one side of the base plate, a position sensing piece is correspondingly arranged on the position sensor, the position sensing piece is installed on the driving clamping element and/or the driven clamping element, a material sensor is installed on the base plate, and the material sensor faces to the clamping position;
the driving device comprises a driving base arranged on the substrate, a driving motor arranged on the driving base, a transmission screw rod arranged on the driving base and connected with the driving motor, and a transmission seat connected with the transmission screw rod and capable of following the transmission of the transmission screw rod, wherein the transmission seat is connected with the driving clamping element; the driving motor is a servo motor, a coupling is arranged at the driving end of the driving motor, and the coupling is connected with the transmission screw rod;
the synchronous transmission device comprises a first transmission wheel and a second transmission wheel which are respectively arranged on two sides of the substrate, a synchronous belt is arranged between the first transmission wheel and the second transmission wheel in a transmission mode and comprises a first reciprocating transmission part and a second reciprocating transmission part, the first reciprocating transmission part is connected with the driving clamping element, and the second reciprocating transmission part is connected with the driven clamping element.
7. The automatic PCB board fetching device of claim 6, wherein: the active clamping element comprises an active sliding rail connected with the substrate, an active clamping plate slidably mounted on the active sliding rail, a first active clamping jaw mounted on the active clamping plate, and a second active clamping jaw, wherein active cover opening pressing sheets are arranged on two sides of the first active clamping jaw, an active clamping groove is formed in the second active clamping jaw, the active clamping plate is connected with the driving device, and an active clamping step is arranged on the first active clamping jaw;
the driving clamping plate is connected with a driving clamping plate, one side of the driving clamping plate is provided with a driving connecting block, the driving connecting block is connected with a driving pressing block, and the driving pressing block fixes the first reciprocating transmission part on the driving connecting block;
an active clamping positioning hole is formed in the end face of the second active clamping jaw, the active clamping positioning hole penetrates through the active clamping groove, and an active clamping positioning shaft is mounted in the active clamping positioning hole.
8. The automatic PCB board fetching device of claim 7, wherein: the driven clamping element comprises a driven slide rail connected with the base plate, a driven clamping plate slidably mounted on the driven slide rail, a first driven clamping jaw mounted on the driven clamping plate, and a second driven clamping jaw, wherein driven cover opening pressing sheets are arranged on two sides of the first driven clamping jaw, a driven clamping groove is formed in the second driven clamping jaw, and a driven clamping step is formed in the first driven clamping jaw;
a driven connecting block is installed on one side, connected with the driven clamping plate, of the driven clamping plate, the driven connecting block is connected with a driven pressing block, and the driven pressing block fixes the second reciprocating transmission part to the driven connecting block;
the end face of the second driven clamping jaw is provided with a driven clamping positioning hole which penetrates through the driven clamping groove, and a driven clamping positioning shaft is installed in the driven clamping positioning hole.
9. The automatic PCB board fetching device of claim 8, wherein: the PCB tin-passing jig comprises a jig base, a jig pressing plate and a jig cover plate, wherein the jig pressing plate is provided with the jig base, the jig cover plate is arranged on the jig pressing plate, two sides of the jig cover plate are respectively hinged with a first fastener and a second fastener, the first fastener corresponds to a initiative cover opening pressing plate, the second fastener corresponds to a driven cover opening pressing plate, the jig base corresponds to the first fastener and is provided with a first connecting table, and the second connecting table corresponds to the second fastener.
10. The automatic PCB board fetching device of claim 1, wherein: the cover plate backflow device comprises a plane conveying mechanism and an inclined plane conveying mechanism connected with the plane conveying mechanism.
CN202121138943.2U 2021-05-25 2021-05-25 Automatic get PCB board equipment Expired - Fee Related CN215746932U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202121138943.2U CN215746932U (en) 2021-05-25 2021-05-25 Automatic get PCB board equipment

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202121138943.2U CN215746932U (en) 2021-05-25 2021-05-25 Automatic get PCB board equipment

Publications (1)

Publication Number Publication Date
CN215746932U true CN215746932U (en) 2022-02-08

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN202121138943.2U Expired - Fee Related CN215746932U (en) 2021-05-25 2021-05-25 Automatic get PCB board equipment

Country Status (1)

Country Link
CN (1) CN215746932U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113333888A (en) * 2021-05-25 2021-09-03 东莞市冠佳电子设备有限公司 Automatic get PCB board equipment

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113333888A (en) * 2021-05-25 2021-09-03 东莞市冠佳电子设备有限公司 Automatic get PCB board equipment
CN113333888B (en) * 2021-05-25 2022-11-25 东莞市冠佳电子设备有限公司 Automatic get PCB board equipment

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