CN203946587U - H frame transmits plate putting machine automatically - Google Patents

H frame transmits plate putting machine automatically Download PDF

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Publication number
CN203946587U
CN203946587U CN201420322130.2U CN201420322130U CN203946587U CN 203946587 U CN203946587 U CN 203946587U CN 201420322130 U CN201420322130 U CN 201420322130U CN 203946587 U CN203946587 U CN 203946587U
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CN
China
Prior art keywords
frame
delivery section
roller
chain
section
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Expired - Lifetime
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CN201420322130.2U
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Chinese (zh)
Inventor
廖玉红
李玉佳
吴建国
于闯
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Shanghai Kaisier Electronic Co Ltd
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Shanghai Kaisier Electronic Co Ltd
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Priority to CN201420322130.2U priority Critical patent/CN203946587U/en
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Publication of CN203946587U publication Critical patent/CN203946587U/en
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Abstract

The utility model discloses a kind of H frame and automatically transmit plate putting machine, comprise frame, the inside H frame chain sprocket delivery section that is provided with PCB roll-over conveying system in frame and transmits from left to right, PCB roll-over conveying system forms by being positioned at the chain inclination delivery section at front openings place of frame and the roller horizontal transmission section that is arranged at chain inclination delivery section upper end, the lower end of the front openings of frame in chain inclination delivery section is provided with H frame stepping delivery section, H frame stepping delivery section is provided with H frame corresponding to chain inclination delivery section and lifts and turn manipulator, chain inclination delivery section is provided with PCB and captures hook, inner H frame chain sprocket delivery section is arranged at the end of this H frame stepping delivery section, the end of inner H frame chain sprocket delivery section is protruding from the right openings of frame, the end of inner H frame chain sprocket delivery section is provided with the second outside H frame electric roller delivery section.The utility model can better coordinate carrier to complete the work that pcb board is put in automation.

Description

H frame transmits plate putting machine automatically
Technical field
The utility model relates to a kind of printed circuit board (PCB) production facilities, is specifically related to a kind of automatic plate putting machine.
Background technology
At present, in the production process of pcb board (printed circuit board (PCB)), in the processing procedures such as wet green oil silk-screen, need to utilize transportation that carrier realizes pcb board and deposit, to tackle the unfavorable factors such as high temperature in the processing procedures such as wet green oil silk-screen, high viscosity.Yet, in prior art, also do not have a kind of carrier that can coordinate preferably to complete the equipment that pcb board is put in automation, in prior art, need a kind of so automatic plate putting machine badly.
Summary of the invention
The purpose of this utility model is the deficiency existing in order to overcome prior art, provides a kind of and can better coordinate carrier to complete automation to put the H frame of pcb board and automatically transmit plate putting machine.
The utility model is achieved through the following technical solutions: a kind of H frame transmits plate putting machine automatically, comprise frame, front side and the right side of the bottom of this frame are provided with opening, the inside H frame chain sprocket delivery section that is provided with PCB roll-over conveying system in described frame and transmits from left to right, described PCB roll-over conveying system by be positioned at described frame front openings place chain inclination delivery section and be arranged at chain inclination delivery section upper end turning to forming in conplane roller horizontal transmission section with chain inclination delivery section, the lower end of the front openings of described frame in described chain inclination delivery section is provided with H frame stepping delivery section, described H frame stepping delivery section is provided with H frame corresponding to described chain inclination delivery section and lifts and turn manipulator, described chain inclination delivery section is provided with for take off the PCB of pcb board from H frame and captures hook, the top of described H frame stepping delivery section is provided with the first outside H frame electric roller delivery section, described inner H frame chain sprocket delivery section is arranged at the end of this H frame stepping delivery section, the end of described inner H frame chain sprocket delivery section is protruding from the right openings of described frame, the end of described inner H frame chain sprocket delivery section is provided with the second outside H frame electric roller delivery section.
Described chain inclination delivery section comprises frame, mutually over against be arranged at two sprocket chain strip transmission mechanisms in frame, for the first transmission shaft that drives the drive sprocket of these two sprocket chain strip transmission mechanisms to rotate, at least two mutually over against the chain that is arranged at two sprocket chain strip transmission mechanisms on PCB capture the support roller that hooks and be arranged at the left and right sides and the middle part of two sprocket chain strip transmission mechanisms, the top of described sprocket chain strip transmission mechanism is provided with first detecting sensor that puts in place, the side in the stage casing of described sprocket chain strip transmission mechanism is provided with second detecting sensor that puts in place, the front end the 3rd of the roller horizontal transmission section detecting sensor that puts in place, the side of described chain inclination delivery section is provided with for driving the turnover driving mechanism of described roller horizontal transmission section upset, this turnover driving mechanism comprises reducing motor, the sprocket chain strip transmission mechanism being connected with the clutch end of reducing motor, the second driving shaft being connected with the clutch end of sprocket chain strip transmission mechanism, be connected in second driving shaft one end swing arm and be arranged at two micro-switchs of the swing arm left and right sides, the other end of described second driving shaft is connected with described roller horizontal transmission section, when described roller horizontal transmission section is during in horizontality, described swing arm contacts with a micro-switch, when described roller horizontal transmission section turn to described chain inclination delivery section in same plane, described swing arm contacts with another micro-switch.
Described roller horizontal transmission section comprises support body, be arranged side by side a plurality of turning cylinders in support body, be evenly arranged at a plurality of rollers on every turning cylinder, be arranged at least two PCB gear shafts of support body top and be evenly arranged at the position-limited wheel on PCB gear shaft, is formed for the gap that pcb board passes through between position-limited wheel and roller.
The support body of described roller horizontal transmission section comprises two side plates in left and right and is connected in the connecting panel between these two side plates, the two ends, left and right of described the first transmission shaft are connected with the front end of two side plates in left and right of described support body by bearing seat and bearing respectively, and described second driving shaft is connected with the side plate of described support body.
Described automatic deploying and retracting plate machine stepping delivery section comprises H frame, lateral support, reducing motor, transmission shaft, driving wheel, flower wheel and support roller, at the two ends of described lateral support, be respectively arranged with described driving wheel and described flower wheel, described transmission shaft is arranged at the driving wheel end of described lateral support and between two described lateral support, the two ends of described transmission shaft are connected with described driving wheel respectively, described driving wheel is connected with described reducing motor, on described driving wheel and described flower wheel, be arranged with drive belt, inner side at described drive belt is provided with track adjusting wheel, in the bottom of described drive belt, be provided with described support roller, described H sets up and is placed on described drive belt and can moves along described drive belt, at the middle part of described lateral support, lift described in being provided with and turn manipulator, flower wheel end at described drive belt is provided with belt stretcher.
The described favourable turn tool hand of lifting comprises cylinder mounting plate, on described cylinder mounting plate, be fixedly connected with respectively finger cylinder, horizontal displacement cylinder, vertical displacement cylinder, H frame has or not detecting sensor and pcb board to level sensor, on described finger cylinder, cylinder contiguous block is installed, on described cylinder contiguous block, be provided with anticollison block, on described horizontal displacement cylinder, be connected with upset cylinder connection piece, in one end of described upset cylinder connection piece, be provided with H frame crossbeam to level sensor, in the upper end of described vertical displacement cylinder, be provided with a upset pawl, described H frame crossbeam is opto-electronic pickup to level sensor.
The below of the first half section of described inner H frame chain sprocket delivery section is provided with the first lifting electric transmitting device for idler wheel identical with the direction of transfer of described H frame stepping delivery section corresponding to outside electric roller delivery section, the below of the second half section of described inner H frame chain sprocket delivery section is provided with direction of transfer perpendicular to the second lifting electric transmitting device for idler wheel of the direction of transfer of this inside H frame chain sprocket delivery section, described the first lifting electric transmitting device for idler wheel, described the second lifting electric transmitting device for idler wheel comprises support body, be arranged at the lifting mechanism of support body lower end, by roller fixed block, be connected in side by side plural electric roller and the plural return idler on support body, between electric roller and adjacent return idler and between two adjacent return idlers, all by polywedge bet, be connected.
Described inner H frame chain sprocket delivery section comprises frame, be installed on reducing motor in frame, by the first transmission shaft and bearing, be connected in two drive sprockets in frame, by second driving shaft and bearing, be connected in two drive sprocket driven sprockets in frame, be arranged at two chains and the chain stay bearing plate between drive sprocket and corresponding driven sprocket between two drive sprockets and two driven sprockets, and described the first transmission shaft is connected with the power take-off shaft of described reducing motor by coupler.
Described the first outside electric roller delivery section, described the second outside electric roller delivery section include frame and are connected in side by side a plurality of electric rollers and a plurality of return idler in frame by roller fixed block, between electric roller and adjacent return idler and between two adjacent return idlers, all by polywedge bet, be connected, described frame is provided with side block in the left and right sides of described electric roller and described return idler, and described frame is provided with spacing guide plate in the upper center of described electric roller and described return idler.
Described outside electric roller delivery section consists of three sections of roller delivery sections that are set in turn in from front to back in described frame, the top of every section of roller delivery section is provided with the detecting sensor that puts in place, every section of roller delivery section consists of an electric roller and five return idlers, in every section of roller delivery section, between electric roller and adjacent return idler and between two adjacent return idlers, all by polywedge bet, be connected.
The beneficial effects of the utility model are: the utility model can be in the process of transport of H frame, from H frame, take off pcb board, plate fluent movements are put in automation, and have guaranteed to put plate accuracy of action, reliability, its efficiency is higher, more can adapt to the requirement of fast and efficient production.
Accompanying drawing explanation
Fig. 1 is integral structure schematic diagram of the present utility model;
Fig. 2 is the structural representation of PCB roll-over conveying system;
Fig. 3 is the structural representation of H frame stepping delivery section;
Fig. 4 is that H frame is lifted the structural representation that turns manipulator;
Fig. 5 is the structural representation of H frame;
Fig. 6 is the structural representation of the matching relationship of inner H frame chain sprocket delivery section and the second outside H frame electric roller horizontal transmission section.
In the drawings: 100-frame; 101-transparent windows; 102-safety door switch; 103-combination lantern;
The outside H frame of 200-first electric roller horizontal transmission section;
300-H frame stepping delivery section; 301-lateral support; 302-turning manipulator; 303-reducing motor; 304-transmission shaft; 305-driving wheel; 306-flower wheel; 307-support roller; 308-drive belt; 309-track adjusting wheel; 310-belt stretcher; The 311-pawl that overturns; 312-points cylinder; 313-horizontal displacement cylinder; 314-vertical displacement cylinder; 315-H frame has or not detecting sensor; 316-PCB plate is to level sensor; 317-cylinder contiguous block; 318-anticollison block; The 319-cylinder connection piece that overturns; 320-H frame crossbeam is to level sensor;
400-chain inclination delivery section 400; 401-frame; 402-PCB captures hook; 403-support roller 203; 404-first detecting sensor that puts in place; 405-second detecting sensor that puts in place; 406-drive sprocket; 407-driven sprocket; 408-chain; 409-the first transmission shaft; 410-second driving shaft; 411-bearing seat; 412-reducing motor; 413-driving chain wheel; 414-swing arm; 415-micro-switch;
500-roller horizontal transmission section 500; 501-support body; 502-side plate; 503-roller 203; 504-turning cylinder; 505-PCB gear shaft; 506-position-limited wheel;
The inner H frame of 600-chain sprocket delivery section; 601-reducing motor; 602-drive sprocket; 603-chain; 604-driven sprocket; 605-the first transmission shaft; 606-second driving shaft; 607-anticollison block; The 608-detecting sensor that puts in place; 609-the first lifting electric transmitting device for idler wheel; 610-the second lifting electric transmitting device for idler wheel;
The outside H frame of 700-second electric roller horizontal transmission section; 701-electric roller; 702-return idler; 703-polywedge bet; 704-roller fixed block; The spacing guide plate of 705-; 706-side block; The 707-detecting sensor that puts in place;
800-H frame; 801-stirrup; 802-lower beam; 803-bottom pipe link; 804-contiguous block; The vertical bar of 805-; 806-carrying handle; 807-back-up block.
The specific embodiment
Below in conjunction with accompanying drawing, the utility model is described in detail.
As shown in Figure 1, a kind of H frame transmits plate putting machine automatically, comprise frame 100, front side and the right side of the bottom of this frame 100 are provided with opening, the inside H frame chain sprocket delivery section 600 that is provided with PCB roll-over conveying system in frame 100 and transmits from left to right, PCB roll-over conveying system by be positioned at frame 100 front openings place chain inclination delivery section 400 and be arranged at chain inclination delivery section 400 upper ends turning to forming in conplane roller horizontal transmission section 500 with chain inclination delivery section 400, the lower end of the front openings of frame 100 in chain inclination delivery section 400 is provided with H frame stepping delivery section 300, H frame stepping delivery section 300 is provided with H frame corresponding to chain inclination delivery section 400 and lifts and turn manipulator, chain inclination delivery section 400 is provided with for take off the PCB of pcb board from H frame 800 and captures hook, the top of H frame stepping delivery section 300 is provided with the first outside H frame electric roller delivery section, inner H frame chain sprocket delivery section 600 is arranged at the end of this H frame stepping delivery section 300, the end of inner H frame chain sprocket delivery section 600 is protruding from the right openings of frame 100, the end of inner H frame chain sprocket delivery section 600 is provided with the second outside H frame electric roller delivery section.Referring to Fig. 1, in frame 100, be also provided with transparent windows 101, safety door switch 102 and combination lantern 103.
During work, the H frame 800 of fully loaded pcb board is placed in the first outside H frame electric roller horizontal transmission section 200, transfer to H frame stepping delivery section 300, by lifting of H frame stepping delivery section 300, turn chain inclination delivery section 400 co-ordinations of manipulator and PCB roll-over conveying system, pcb board is delivered to chain inclination delivery section 400, then move to roller horizontal transmission section 500, enter subsequent production line.After pcb board in H frame 800 is all placed on manufacturing line, through inner H frame chain sprocket delivery section 600, be transported to the second outside H frame electric roller horizontal transmission section 700 of an other side, be transported to transport trolley.
As shown in Figure 2, PCB roll-over conveying system, comprise the chain inclination delivery section 400 being obliquely installed and the roller horizontal transmission section 500 that is arranged at chain inclination delivery section 400 upper ends, chain inclination delivery section 400 comprises frame 401, mutually over against be arranged at two sprocket chain strip transmission mechanisms in frame 401, for the first transmission shaft 409 that drives the drive sprocket 406 of these two sprocket chain strip transmission mechanisms to rotate, at least two mutually over against the chain that is arranged at two sprocket chain strip transmission mechanisms 408 on PCB capture and hook 402 and be arranged at the left and right sides of two sprocket chain strip transmission mechanisms and the support roller at middle part 203403, the top of sprocket chain strip transmission mechanism is provided with first detecting sensor 404 that puts in place, the side in the stage casing of sprocket chain strip transmission mechanism is provided with second detecting sensor 405 that puts in place, the front end the 3rd of roller horizontal transmission section 500 detecting sensor that puts in place, the side of chain inclination delivery section 400 is provided with the turnover driving mechanism for 500 upsets of driving rolls horizontal transmission section, this turnover driving mechanism comprises reducing motor 412, the sprocket chain strip transmission mechanism being connected with the clutch end of reducing motor 412, the second driving shaft 410 being connected with the clutch end of sprocket chain strip transmission mechanism, be connected in second driving shaft 410 one end swing arm 414 and be arranged at two micro-switchs 415 of swing arm 414 left and right sides, the other end of second driving shaft 410 is connected with roller horizontal transmission section 500, when roller horizontal transmission section 500 is during in horizontality, swing arm 414 contacts with a micro-switch 415, when roller horizontal transmission section 500 turn to chain inclination delivery section 400 in same plane, swing arm 414 contacts with another micro-switch 415.
Roller horizontal transmission section 500 comprises support body 501, be arranged side by side a plurality of turning cylinders 504 in support body 501, be evenly arranged at a plurality of rollers 503 on every turning cylinder 504, be arranged at least two PCB gear shafts 505 of support body 501 tops and be evenly arranged at the position-limited wheel 506 on PCB gear shaft 505, between position-limited wheel 506 and roller 503, is formed for the gap that pcb board passes through.
The support body 501 of roller horizontal transmission section 500 comprises two side plates 502 in left and right and is connected in the connecting panel between these two side plates 502, the two ends, left and right of the first transmission shaft 409 are connected with the front end of two side plates 502 in left and right of support body 501 by bearing seat 411 and bearing respectively, and second driving shaft 410 is connected with the side plate 502 of support body 501.
During work, first detecting sensor 404 that puts in place detects after pcb board puts in place, and imput shaft drives drive sprocket 406, chain 408, driven sprocket 407 motions, and chain 408 drives PCB to capture to hook 402 to capture the upward movement that tilts after pcb boards.When second detecting sensor 405 that puts in place detects after pcb board puts in place, reducing motor 412 is by sprocket wheel and 413 motions of chain-driving driving chain wheel, because second driving shaft 410 is fixedly connected with the side plate 502 of roller horizontal transmission section 500, side plate 502 drives whole roller horizontal transmission section 500 to rotatablely move, micro-switch 415 and the upturned position that defines roller horizontal transmission section 500 coordinating of swing arm 414, the maximum position of the rotation of roller horizontal transmission section 500 and chain inclination delivery section 400 are in same plane.Then 500 rotations of roller horizontal transmission section return back to level, and pcb board transfers to manufacturing line through subsequent horizontal.
As in Figure 3-5, H frame stepping delivery section 300 comprises lateral support 301, H frame is lifted and is turned manipulator 302, reducing motor 303, transmission shaft 304, driving wheel 305, flower wheel 306 and support roller 307, at the two ends of lateral support 301, be respectively arranged with driving wheel 305 and flower wheel 306, transmission shaft 304 is arranged at the driving wheel end of lateral support 301 and between two lateral support 301, the two ends of transmission shaft 304 are connected with driving wheel 305 respectively, driving wheel 305 is connected with reducing motor 303, on driving wheel 305 and flower wheel 306, be arranged with drive belt 308, in the inner side of drive belt 308, be provided with track adjusting wheel 309, in the bottom of drive belt 308, be provided with support roller 307, H frame 800 is arranged on drive belt 308 and can moves along drive belt 308, at the middle part of lateral support 301, being provided with H frame lifts and turns manipulator 302, flower wheel end at drive belt 308 is provided with belt stretcher 310.
Belt stretcher 310 can regulate the degree of tightness of drive belt 308, reducing motor 303 drives driving wheel 305 rotations of both sides by transmission shaft 304, between the driving wheel 305 at stepping delivery section two and flower wheel 306, it is drive belt 308, this drive belt 308 drives H frame 800 in the motion of stepping delivery section, and the effect of track adjusting wheel 309 is to guarantee that H frame 800 moves along set direction.
H frame 800 comprises the vertical bar 805 of stirrup 801, lower beam 802, bottom pipe link 803, contiguous block 804 and Duo Gen, on bottom pipe link 803, be fixedly connected with many vertical bars 805, many vertical bars 805 are fixedly connected with lower beam 802 by contiguous block 804, between the vertical bar 805 in two of left and right, be also fixedly connected with stirrup 801, in one end of H frame 800, be provided with carrying handle 806, in the lower end of carrying handle 806, be provided with a back-up block 807.H frame is convenient to transportation, and weight is lighter, is convenient to one man operation.
The upper beam of H frame 800 is stirrup 801, and lower beam 802 is fixing with vertical bar 805 by contiguous block 804, and it is lower beam 802 that H frame is lifted what turn that manipulator 302 captures, overturns.
H frame is lifted and is turned manipulator 302 and comprise cylinder mounting plate, on cylinder mounting plate, be fixedly connected with respectively finger cylinder 312, horizontal displacement cylinder 313, vertical displacement cylinder 314, H frame has or not detecting sensor 315 and pcb board to level sensor 316, on finger cylinder 312, cylinder contiguous block 317 is installed, on cylinder contiguous block 317, be provided with anticollison block 318, on horizontal displacement cylinder 313, be connected with upset cylinder connection piece 319, one end at upset cylinder connection piece 319 is provided with H frame crossbeam to level sensor 320, in the upper end of vertical displacement cylinder 314, be provided with a upset pawl 311, H frame crossbeam is opto-electronic pickup to level sensor 320.
The H frame of pcb board is lifted and is turned manipulator 302 and consist of cylinder mounting plate and 3 cylinders and the associated component that arrange thereon.Finger cylinder 312 is provided with cylinder contiguous block 317, anticollison block 318, and it act as in 800 switching processes of H frame whole H frame 800 is clamped, and avoids because of the change in location that causes of operation, and H frame crossbeam is the situation that puts in place for detection of H frame 800 to level sensor 320.
Horizontal displacement cylinder 313 forms pcb board H frame with vertical displacement cylinder 314 and lifts the core component that turns manipulator 302, when H frame crossbeam detects crossbeam to level sensor 320, servomotor stops operating, and stepping delivery section is no longer moved, and finger cylinder 312 grips H frame 800; Then vertical displacement cylinder 314 drives upset pawl 311 upward movements, holds up the lower beam 802 of H frame 800, then in stretching out the horizontal displacement cylinder 313 of state, shrinks always, drives 311 motions of upset pawl, completes the flip-flop movement of H frame 800.This action is that individual layer support body drives a slice pcb board to complete upset, and after last action completes, horizontal displacement cylinder 313 continues to stretch out, and the original position of then H frame 800 being overturn back now completes a complete upset and puts plate action.
Automatic deploying and retracting plate machine stepping delivery section take principle of work that plate putting machine is example as: fully loaded H frame 800 enters stepping delivery section from reducing motor 303 1 sides, now H frame 800 is all swung to reducing motor 303 1 sides, H frame crossbeam detects the situation that puts in place of H frame 800 to level sensor 320, after H frame 800 being detected and putting in place, through H frame, lifting the effect that turns manipulator 302 overturns every layer of H frame 800 one by one, then with the mating reaction of pcb board roll-over conveying system, complete the plate process of putting, the working process of unloader is contrary with plate putting machine.
As shown in Figure 6, the below of the first half section of inner H frame chain sprocket delivery section 600 is provided with the first lifting electric transmitting device for idler wheel 609 identical with the direction of transfer of H frame stepping delivery section 300 corresponding to H frame stepping delivery section 300, the below of the second half section of inner H frame chain sprocket delivery section 600 is provided with direction of transfer perpendicular to the second lifting electric transmitting device for idler wheel 610 of the direction of transfer of this inside H frame chain sprocket delivery section 600, the first lifting electric transmitting device for idler wheel 609, the second lifting electric transmitting device for idler wheel 610 comprises support body, be arranged at the lifting mechanism of support body lower end, by roller fixed block, be connected in side by side plural electric roller and the plural return idler on support body, between electric roller and adjacent return idler and between two adjacent return idlers, all by polywedge bet, be connected.On the relevant position of the second outside H frame electric roller horizontal transmission section 700 and inner H frame chain sprocket delivery section 600, be provided with put in place detecting sensor 608 and anticollison block 607.
During work, when H frame moves to the first lifting electric transmitting device for idler wheel 609, the first lifting electric transmitting device for idler wheel 609 rises, and its electric roller drives H frame to move to the top of the first lifting electric transmitting device for idler wheel 609.Then, the first lifting electric transmitting device for idler wheel 609 declines, H frame is placed on the chain 603 of inner H frame chain sprocket delivery section 600, reducing motor 601 band movable sprocket motions, H is put to the top that grillage is delivered to the second lifting electric transmitting device for idler wheel 610, the second lifting electric transmitting device for idler wheel 610 rises, and its electric roller is sent to follow-up stepping delivery section by H frame, carries out follow-up receipts plate action.
The second outside H frame electric roller horizontal transmission section 700 comprises frame and is connected in side by side a plurality of electric rollers 701 and a plurality of return idler 702 in frame by roller fixed block 704, between electric roller 701 and adjacent return idler 702 and between two adjacent return idlers 702, all by polywedge bet 703, be connected, frame is provided with side block 706 in the left and right sides of electric roller 701 and return idler 702, and frame is provided with spacing guide plate 705 in the upper center of electric roller 701 and return idler 702.The structure of the first outside H frame electric roller horizontal transmission section 200 is identical with the structure of the second outside H frame electric roller horizontal transmission section 700.
The actuator of electric roller 701 is integrated in roller inside.In the design, each driving roller drives at most five return idlers 702 to transmit.Referring to Fig. 1, the second outside H frame electric roller horizontal transmission section 700 consists of three sections of roller delivery sections that are set in turn in from front to back in frame, the top of every section of roller delivery section is provided with the detecting sensor 707 that puts in place, every section of roller delivery section consists of an electric roller 701 and five return idlers 702, in every section of roller delivery section, between electric roller 701 and adjacent return idler 702 and between two adjacent return idlers 702, all by polywedge bet 703, be connected.The detecting sensor that puts in place is for detection of the position of H frame, and equipment acts accordingly according to the position of H frame.
During work, H frame is across the both sides of the spacing guide plate 705 of the second outside H frame electric roller horizontal transmission section 700, and spacing by side block 706 left and right, and H frame is by electric roller 701 transmissions.
Inner H frame chain sprocket delivery section 600 comprises frame, be installed on reducing motor 601 in frame, by the first transmission shaft 605 and bearing, be connected in two drive sprockets 602 in frame, by second driving shaft 606 and bearing, be connected in two drive sprockets, 602 driven sprockets 604 in frame, be arranged at two chains 603 between two drive sprockets 602 and two driven sprockets 604 and at drive sprocket 602 and chain 603 stay bearing plates between driven sprocket 604 accordingly, the first transmission shaft 605 is connected with the power take-off shaft of reducing motor 601 by coupler.
Finally should be noted that; above content is only in order to illustrate the technical solution of the utility model; but not restriction to the utility model protection domain; the simple modification that those of ordinary skill in the art carries out the technical solution of the utility model or be equal to replacement, does not all depart from essence and the scope of technical solutions of the utility model.

Claims (10)

1. a H frame transmits plate putting machine automatically, it is characterized in that: described H frame automatically transmits plate putting machine and comprises frame, front side and the right side of the bottom of this frame are provided with opening, the inside H frame chain sprocket delivery section that is provided with PCB roll-over conveying system in described frame and transmits from left to right, described PCB roll-over conveying system by be positioned at described frame front openings place chain inclination delivery section and be arranged at chain inclination delivery section upper end turning to forming in conplane roller horizontal transmission section with chain inclination delivery section, the lower end of the front openings of described frame in described chain inclination delivery section is provided with H frame stepping delivery section, described H frame stepping delivery section is provided with H frame corresponding to described chain inclination delivery section and lifts and turn manipulator, described chain inclination delivery section is provided with for take off the PCB of pcb board from H frame and captures hook, the top of described H frame stepping delivery section is provided with the first outside H frame electric roller delivery section, described inner H frame chain sprocket delivery section is arranged at the end of this H frame stepping delivery section, the end of described inner H frame chain sprocket delivery section is protruding from the right openings of described frame, the end of described inner H frame chain sprocket delivery section is provided with the second outside H frame electric roller delivery section.
2. H frame according to claim 1 transmits plate putting machine automatically, it is characterized in that: described chain inclination delivery section comprises frame, mutually over against be arranged at two sprocket chain strip transmission mechanisms in frame, for the first transmission shaft that drives the drive sprocket of these two sprocket chain strip transmission mechanisms to rotate, at least two mutually over against the chain that is arranged at two sprocket chain strip transmission mechanisms on PCB capture the support roller that hooks and be arranged at the left and right sides and the middle part of two sprocket chain strip transmission mechanisms, the top of described sprocket chain strip transmission mechanism is provided with first detecting sensor that puts in place, the side in the stage casing of described sprocket chain strip transmission mechanism is provided with second detecting sensor that puts in place, the front end the 3rd of the roller horizontal transmission section detecting sensor that puts in place, the side of described chain inclination delivery section is provided with for driving the turnover driving mechanism of described roller horizontal transmission section upset, this turnover driving mechanism comprises reducing motor, the sprocket chain strip transmission mechanism being connected with the clutch end of reducing motor, the second driving shaft being connected with the clutch end of sprocket chain strip transmission mechanism, be connected in second driving shaft one end swing arm and be arranged at two micro-switchs of the swing arm left and right sides, the other end of described second driving shaft is connected with described roller horizontal transmission section, when described roller horizontal transmission section is during in horizontality, described swing arm contacts with a micro-switch, when described roller horizontal transmission section turn to described chain inclination delivery section in same plane, described swing arm contacts with another micro-switch.
3. H frame according to claim 2 transmits plate putting machine automatically, it is characterized in that: described roller horizontal transmission section comprises support body, be arranged side by side a plurality of turning cylinders in support body, be evenly arranged at a plurality of rollers on every turning cylinder, be arranged at least two PCB gear shafts of support body top and be evenly arranged at the position-limited wheel on PCB gear shaft, between position-limited wheel and roller, be formed for the gap that pcb board passes through.
4. H frame according to claim 3 transmits plate putting machine automatically, it is characterized in that: the support body of described roller horizontal transmission section comprises two side plates in left and right and is connected in the connecting panel between these two side plates, the two ends, left and right of described the first transmission shaft are connected with the front end of two side plates in left and right of described support body by bearing seat and bearing respectively, and described second driving shaft is connected with the side plate of described support body.
5. according to the H frame described in any one in claim 1-4, automatically transmit plate putting machine, it is characterized in that: described automatic deploying and retracting plate machine stepping delivery section comprises H frame, lateral support, reducing motor, transmission shaft, driving wheel, flower wheel and support roller, at the two ends of described lateral support, be respectively arranged with described driving wheel and described flower wheel, described transmission shaft is arranged at the driving wheel end of described lateral support and between two described lateral support, the two ends of described transmission shaft are connected with described driving wheel respectively, described driving wheel is connected with described reducing motor, on described driving wheel and described flower wheel, be arranged with drive belt, inner side at described drive belt is provided with track adjusting wheel, in the bottom of described drive belt, be provided with described support roller, described H sets up and is placed on described drive belt and can moves along described drive belt, at the middle part of described lateral support, lift described in being provided with and turn manipulator, flower wheel end at described drive belt is provided with belt stretcher.
6. H frame according to claim 5 transmits plate putting machine automatically, it is characterized in that: described in lift favourable turn tool hand and comprise cylinder mounting plate, on described cylinder mounting plate, be fixedly connected with respectively finger cylinder, horizontal displacement cylinder, vertical displacement cylinder, H frame has or not detecting sensor and pcb board to level sensor, on described finger cylinder, cylinder contiguous block is installed, on described cylinder contiguous block, be provided with anticollison block, on described horizontal displacement cylinder, be connected with upset cylinder connection piece, in one end of described upset cylinder connection piece, be provided with H frame crossbeam to level sensor, in the upper end of described vertical displacement cylinder, be provided with a upset pawl, described H frame crossbeam is opto-electronic pickup to level sensor.
7. H frame according to claim 1 transmits plate putting machine automatically, it is characterized in that: the below of the first half section of described inner H frame chain sprocket delivery section is provided with the first lifting electric transmitting device for idler wheel identical with the direction of transfer of described H frame stepping delivery section corresponding to outside electric roller delivery section, the below of the second half section of described inner H frame chain sprocket delivery section is provided with direction of transfer perpendicular to the second lifting electric transmitting device for idler wheel of the direction of transfer of this inside H frame chain sprocket delivery section, described the first lifting electric transmitting device for idler wheel, described the second lifting electric transmitting device for idler wheel comprises support body, be arranged at the lifting mechanism of support body lower end, by roller fixed block, be connected in side by side plural electric roller and the plural return idler on support body, between electric roller and adjacent return idler and between two adjacent return idlers, all by polywedge bet, be connected.
8. H frame according to claim 7 transmits plate putting machine automatically, it is characterized in that: described inner H frame chain sprocket delivery section comprises frame, be installed on the reducing motor in frame, by the first transmission shaft and bearing, be connected in two drive sprockets in frame, by second driving shaft and bearing, be connected in two drive sprocket driven sprockets in frame, be arranged at two chains and the chain stay bearing plate between drive sprocket and corresponding driven sprocket between two drive sprockets and two driven sprockets, described the first transmission shaft is connected with the power take-off shaft of described reducing motor by coupler.
9. H frame according to claim 1 transmits plate putting machine automatically, it is characterized in that: described the first outside electric roller delivery section, described the second outside electric roller delivery section includes frame and is connected in side by side a plurality of electric rollers and a plurality of return idler in frame by roller fixed block, between electric roller and adjacent return idler and between two adjacent return idlers, all by polywedge bet, be connected, described frame is provided with side block in the left and right sides of described electric roller and described return idler, described frame is provided with spacing guide plate in the upper center of described electric roller and described return idler.
10. H frame according to claim 9 transmits plate putting machine automatically, it is characterized in that: described outside electric roller delivery section consists of three sections of roller delivery sections that are set in turn in from front to back in described frame, the top of every section of roller delivery section is provided with the detecting sensor that puts in place, every section of roller delivery section consists of an electric roller and five return idlers, in every section of roller delivery section, between electric roller and adjacent return idler and between two adjacent return idlers, all by polywedge bet, be connected.
CN201420322130.2U 2014-06-17 2014-06-17 H frame transmits plate putting machine automatically Expired - Lifetime CN203946587U (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104003171A (en) * 2014-06-17 2014-08-27 上海凯思尔电子有限公司 H-frame automatic conveying plate placing machine
CN105692164A (en) * 2016-03-24 2016-06-22 天津赛象科技股份有限公司 Automatic head delivering device
CN106144433B (en) * 2016-08-25 2018-05-04 山东临工工程机械有限公司 Two casees method automatic butt loading and unloading devices
CN110155717A (en) * 2019-04-30 2019-08-23 东莞宇宙电路板设备有限公司 Retraction plate machine

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104003171A (en) * 2014-06-17 2014-08-27 上海凯思尔电子有限公司 H-frame automatic conveying plate placing machine
CN105692164A (en) * 2016-03-24 2016-06-22 天津赛象科技股份有限公司 Automatic head delivering device
CN106144433B (en) * 2016-08-25 2018-05-04 山东临工工程机械有限公司 Two casees method automatic butt loading and unloading devices
CN110155717A (en) * 2019-04-30 2019-08-23 东莞宇宙电路板设备有限公司 Retraction plate machine

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