CN204505373U - A kind of PCB-V groove cutter sweep - Google Patents
A kind of PCB-V groove cutter sweep Download PDFInfo
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- CN204505373U CN204505373U CN201520025913.9U CN201520025913U CN204505373U CN 204505373 U CN204505373 U CN 204505373U CN 201520025913 U CN201520025913 U CN 201520025913U CN 204505373 U CN204505373 U CN 204505373U
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Abstract
The utility model discloses a kind of PCB-V groove cutter sweep, comprise automatic loading/unloading mechanism, cutting mechanism, crossbeam, base, vision detent mechanism and CCU, described vision detent mechanism comprises video camera, light source, movable workbench, mobile driver part, rotary table, rotary driving part, manipulator and robot drives cylinder, cutting mechanism comprises cutter sweep, lower cutter sweep and upper and lower cutter sweep left and right driver part, video camera is arranged on cutter sweep, light source is arranged on lower cutter sweep, and light source is corresponding with video camera, be positioned on same axis, controller is connected with movable workbench by mobile driver part, and rotary driving part is connected with rotary table, and robot drives cylinder is connected with manipulator.The utility model realizes the accurate detection of PCB-V groove, is convenient to process fast, accurately.
Description
Technical field
The utility model relates to a kind of PCB-V groove cutter sweep, belongs to cutter sweep technical field.
Background technology
Along with the development of electronic industrial technology, market is to PCB(printed circuit board) demand gets more and more, and this requires production process high efficiency, the high stable of PCB, low-risk.
The cutting of V groove is the indispensable technique of processing PCB, and at present, traditional V groove cutting method comprises the cutting of manual V groove and machine V groove cuts.All there is very large problem in manual or machine V groove cutting, e.g., the efficiency of manual V groove cutting is very low, and precision cannot ensure, the cutting of machine V groove not accurately, affects cut quality on location.
In addition, location during cutting normally utilizes alignment pin to be fixed by PCB, or PCB keep to the side location, these two kinds of modes for precision V slot machining all belong to roughing standard location.
In machine cutting, then need individual loading and unloading material of special staff according to alignment pin location, efficiency is low; And it is very large with the impact of mode on V slot machining precision of alignment pin location, because alignment pin belongs to the multipoint positioning of single-point or multiple alignment pin, therefore, still can there is displacement in PCB on Cutting platform, alignment pin position error is high, has influence on the precision of V slot machining.
In machine cutting, according to the roughing standard mode of locating to keep to the side, by PCB with the edge of Cutting platform for benchmark, carry out aligning location, although this mode saves manpower, but the location opposite side requirement on machining accuracy that keeps to the side is higher, once deviation appears in opposite side processing in last technique, cut problem that is defective or that scrap by causing PCB.The machining accuracy of true edge easily goes wrong, and it is very large that this cuts qualitative effects to PCB, and severe one causes the quality problems of later stage finished product, causes larger economic loss to enterprise.
Utility model content
The purpose of this utility model is: provide a kind of PCB-V groove cutter sweep, solving existing PCB, in V groove cutting process, there is efficiency low, precision is low, locates the not accurate enough technical problem causing crudy impaired, thus can effectively solve above-mentioned problems of the prior art.
The utility model object is realized by following technical proposals: a kind of PCB-V groove cutter sweep, comprise cutting mechanism, automatic loading/unloading mechanism, vision detent mechanism and controller, wherein: cutting mechanism comprises cutter sweep, lower cutter sweep and upper and lower cutter sweep left and right driver part, described automatic loading/unloading mechanism comprises feeding platform, loading bay and discharging platform, described feeding platform, loading bay and discharging platform are arranged from right to left successively, location-plate is provided with in the rear end of loading bay, positioning pressuring plate is provided with above location-plate, positioning pressuring plate and positioning pressuring plate cylinders, controller and positioning pressuring plate cylinders, and moved up and down by positioning pressuring plate air cylinder driven positioning pressuring plate, coordinate with location-plate after positioning pressuring plate down moves and PCB to be processed is clamped, described vision detent mechanism comprises video camera, light source, movable workbench, rotary table, robot drives cylinder, and mobile driver part, rotary driving part and the manipulator for adjusting PCB to be processed, video camera is arranged on cutter sweep, and light source is arranged on lower cutter sweep, and light source is corresponding with video camera, and is positioned on same axis, controller is connected with upper and lower cutter sweep left and right driver part, and in drive, cutter sweep and lower cutter sweep move left and right, controller is connected with movable workbench by mobile driver part, controls the movable of movable workbench, controller is connected with rotary table by rotary driving part, controls the rotation of rotary table, controller is connected with manipulator by robot drives cylinder, controls the pick-and-place of manipulator.
As a kind of preferred embodiment, described upper cutter sweep comprises cutting mechanism driver part, upper cutting mechanism and upper cutting tool, upper cutting tool is arranged on cutting mechanism, described controller is connected with upper cutting tool by upper cutting mechanism driver part, and in control, cutting tool moves up and down; Described lower cutter sweep comprises lower cutting mechanism driver part, lower cutting mechanism and lower cutting tool, lower cutting tool is arranged on lower cutting mechanism, described controller is connected with lower cutting tool by lower cutting mechanism driver part, controls moving up and down of lower cutting tool.
As a kind of preferred embodiment, also comprise crossbeam, the both sides up and down of described crossbeam are equipped with slide unit, upper cutting mechanism horizontally slips with upside slide unit and is connected, lower cutting mechanism horizontally slips with downside slide unit and is connected, and controller controls upper cutting mechanism and lower cutting mechanism synchronously horizontally slips.
As a kind of preferred embodiment, described video camera is arranged on cutting mechanism, and light source is arranged on lower cutting mechanism.
As a kind of preferred embodiment, described video camera is one or more, and light source and video camera one_to_one corresponding are arranged.
As a kind of preferred embodiment, also comprise base, base is provided with longitudinal guide rail, and movable workbench is arranged on guide rail, moves forward and backward workbench under the drive of mobile driver part at slide on rails; Described rotary table is arranged on movable workbench; Described manipulator and robot drives cylinder are arranged on rotary table.
As a kind of preferred embodiment, described automatic loading/unloading mechanism also comprises feeding platform drive unit, loading bay drive unit, discharging platform drive unit, right sucker manipulator, left sucker manipulator, sucker machinery descend drive unit, sucker manipulator left and right drive unit and left sucker machinery hand-screw to turn driving on hand; Feeding platform drive unit is connected with feeding platform, and feeding platform drive unit drives feeding platform lifting; Loading bay drive unit is connected with loading bay, and loading bay drive unit drives loading bay to rotate and retreats; Discharging platform drive unit is connected with discharging platform, and discharging platform drive unit drives discharging platform lifting; Described right sucker manipulator descends drive unit to be connected with left sucker manipulator and sucker machinery on hand, sucker machinery descends drive unit to drive right sucker manipulator and the lifting of left sucker manipulator on hand, described right sucker manipulator is connected with sucker manipulator left and right drive unit with left sucker manipulator, and sucker manipulator left and right drive unit drives right sucker manipulator and the side-to-side movement of left sucker manipulator; Left sucker manipulator turns to drive with left sucker machinery hand-screw and is connected, and left sucker machinery hand-screw turns the mechanical hand-screw of the left sucker of driving and turns or turn-over.
As a kind of preferred embodiment, the below of pan frontward end is provided with front support leg, and the below of base rear end is provided with rear leg.
The course of work of the present utility model is:
First, carry out material loading, feeding by automatic loading/unloading mechanism, PCB to be processed is sent in follow-up cutter sweep; PCB to be processed is between upper cutting tool and lower cutting tool; Best cutting position is calculated by vision detent mechanism.Being arranged on vision detent mechanism video camera on cutting mechanism with being arranged on together with the light source on lower cutting mechanism moves from right to left, the index point treating image on processing PCB plate or more than at least 2 scans, and send scanning result to controller, by controller, scan image and the theoretical digital document processed or detect are carried out comparing calculation, thus judge the deviation situation of machine direction and theoretical machine direction on pcb board to be processed, calculate optimal process or detect position, then transferring a command to controller.
Then, the optimal process position by calculating adjusts PCB.Specifically, controller controls mechanical hand grip PCB according to the signal that video camera inputs, and exports order to vision detent mechanism simultaneously.If PCB exists the skew in angle, control rotary table rotation in the plane by rotary driving part, thus the angle adjustment of PCB in driven rotary plane; PCB is existed to the skew moved forward and backward, control the movable of movable workbench by mobile driver part, thus drive PCB to realize moving forward and backward adjustment, make PCB adjust to optimal process position.
Finally, by mechanical gripper under the driving of controller, grab PCB and move backward on first cutting position line, and moved downward by positioning pressuring plate air cylinder driven positioning pressuring plate, coordinate with location-plate after positioning pressuring plate down moves and PCB to be processed is clamped; Upper and lower cutting mechanism is moved to PCB right-hand member in the driving of upper and lower cutting mechanism driver part, and the upper cutting tool on upper cutting mechanism is moved down into cutting position, and the lower cutting tool on lower cutting mechanism is moved upwards up to cutting position.Upper and lower cutting tool is respectively under the driving of upper and lower cutting mechanism driver part, mobile cutting from right to left, after arriving high order end, the upwards travelling backwards under the driving of upper cutting mechanism driver part of upper cutting tool, lower cutting tool is downward travelling backwards under the driving of lower cutting mechanism driver part.The upwards travelling backwards of positioning pressuring plate air cylinder driven positioning pressuring plate, positioning pressuring plate=(many number of equaling) are separated with location-plate and are unclamped by PCB; Movable workbench is under it moves the driving of driver part, and driving mechanical hand clamping PCB moves forward a cutting unit, carries out second time cutting.
By that analogy, to the last one cutting processing technique is complete, and manipulator sends PCB complete for unidirectional cutting back to loading bay under the driving of mobile driver part, and afterwards, manipulator returns to the rear end of cutting part again, waits for the cutting of next PCB.
Compared with prior art, the beneficial effects of the utility model: PCB-V groove cutter sweep described in the utility model possesses following advantage:
1. utilize the cooperation of video camera and light source in vision detent mechanism, with the accurate location of auxiliary PCB, realize the accurate detection of PCB-V groove;
2. utilize controller to control vision detent mechanism, to regulate and control the movable of PCB and to rotate, realize the accurate location of PCB, be convenient to process fast, accurately;
3. control automatic loading/unloading mechanism, to realize fully automatic feeding, charging, cutting and discharge process by controller;
4. in addition, also regulating cutting position by controlling upper and lower cutting mechanism driver part, making this cutter sweep can adapt to different-thickness, the cutting processing of different types of PC B;
5. the reasonable in design of whole device, is easy to operation, has no effect to environment, and most of parts recoverable, meet environmental requirement.
Accompanying drawing explanation
Fig. 1 is the schematic diagram of the utility model PCB-V groove cutter sweep.
The schematic diagram of Tu2Shi automatic loading/unloading mechanism.
Fig. 3 is the schematic diagram that V groove cutter sweep is combined with automatic loading/unloading mechanism.
Wherein: 1-frame, 2-discharging platform, 3-sucker machinery descends drive unit on hand, the left sucker manipulator of 4-, 5-left sucker machinery hand-screw turns driving, 6-loading bay, 7-loading bay drive unit, the right sucker manipulator of 8-, 9-feeding platform, 10-sucker manipulator left and right drive unit, 11-feeding platform drive unit, 12-location-plate, 13-positioning pressuring plate, 14-discharging platform drive unit, 15-rear leg, 16-base, 17-moves forward and backward workbench, 18-moves driver part, 19-rotary table, 20-rotary driving part, 21-manipulator, 22-crossbeam, the upper cutting mechanism driver part of 23-, the upper cutting mechanism of 24-, 25-video camera, the upper cutting tool of 26-, cutting tool under 27-, 28-light source, cutting mechanism under 29-, cutting mechanism driver part under 30-, 31-upper and lower cutter sweep left and right driver part, 32-front support leg.
Detailed description of the invention
In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with embodiment, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.
All features disclosed in this description, or the step in disclosed all methods or process, except the speciality mutually repelled and/or step, all can combine by any way, unless specifically stated otherwise, all can be replaced by other equivalences or the alternative features with similar object, namely, unless specifically stated otherwise, an embodiment in a series of equivalence of each feature or similar characteristics.
embodiment:
As shown in Figure 1, 2, 3, the utility model PCB-V groove cutter sweep, it comprises automatic loading/unloading mechanism, cutting mechanism, vision detent mechanism, controller, frame 1, crossbeam 22 and base.Automatic loading/unloading organization establishes, in frame 1, controls automatic loading/unloading mechanism, to realize fully automatic feeding, charging, cutting and discharge process by controller.Cutting mechanism is arranged on crossbeam 22, regulating cutting position, making this cutter sweep can adapt to different-thickness, the cutting processing of different types of PC B by controlling upper and lower cutting mechanism driver part; Vision detent mechanism is arranged on base, and the below of pan frontward end is provided with front support leg 32, and the below of base rear end is provided with rear leg 15; Utilize the cooperation of video camera and light source in vision detent mechanism, with the movable of assistant regulating and controlling PCB and rotation, realize the accurate location of PCB, be convenient to process fast, accurately.
automatic loading/unloading mechanism:comprise feeding platform 9, loading bay 6, discharging platform 2, feeding platform drive unit 11, loading bay drive unit 7, discharging platform drive unit 14, right sucker manipulator 8, left sucker manipulator 4, sucker machinery descends drive unit 3, sucker manipulator left and right drive unit 10 and left sucker machinery hand-screw to turn driving 5 on hand.
Described feeding platform 9, loading bay 6 and discharging platform 2 are arranged from right to left successively.Feeding platform drive unit 11 is connected with feeding platform 9, and feeding platform drive unit 11 drives feeding platform 9 to be elevated; Loading bay drive unit 7 is connected with loading bay 6, and loading bay drive unit 7 drives loading bay 6 to rotate, and lifting discharging platform drive unit 14 is connected with discharging platform 2, and discharging platform drive unit 14 drives discharging platform 2 to be elevated.
Described right sucker manipulator 8 descends drive unit 3 to be connected with left sucker manipulator 4 and sucker machinery on hand, and sucker machinery descends drive unit 3 to drive right sucker manipulator 8 and left sucker manipulator 4 to be elevated on hand; Described right sucker manipulator 8 is connected with sucker manipulator left and right drive unit 10 with left sucker manipulator 4, and sucker manipulator left and right drive unit 10 drives right sucker manipulator 8 and the side-to-side movement of left sucker manipulator 4; Left sucker manipulator 4 turns driving 5 with left sucker machinery hand-screw and is connected, and left sucker machinery hand-screw turns driving 5 and drives left sucker manipulator 4 to rotate or turn-over.
Location-plate 12 is provided with in the rear end of loading bay 6, positioning pressuring plate 13 is provided with above location-plate 12, positioning pressuring plate 13 is connected with positioning pressuring plate cylinder 16, controller is connected with positioning pressuring plate cylinder 16, and drive positioning pressuring plate 13 to move up and down by positioning pressuring plate cylinder 16, coordinate with location-plate 12 after positioning pressuring plate 13 down moves and PCB to be processed is clamped.
cutting mechanism:comprise cutter sweep, lower cutter sweep and upper and lower cutter sweep left and right driver part 23, controller is connected with upper and lower cutter sweep left and right driver part 23, and in drive, cutter sweep and lower cutter sweep move left and right on crossbeam 22.
Described upper cutter sweep comprises cutting mechanism driver part 23, upper cutting mechanism 24 and upper cutting tool 26, upper cutting tool 26 is arranged on cutting mechanism 24, described controller is connected with upper cutting tool 26 by upper cutting mechanism driver part 23, and in control, cutting tool 26 moves up and down.
Described lower cutter sweep comprises lower cutting mechanism driver part 30, lower cutting mechanism 29 and lower cutting tool 27, lower cutting tool 27 is arranged on lower cutting mechanism 29, described controller is connected with lower cutting tool 27 by lower cutting mechanism driver part 30, controls moving up and down of lower cutting tool 27.When the upper cutting tool on upper cutting mechanism is moved down into cutting position, when the lower cutting tool on lower cutting mechanism is moved upwards up to cutting position, realize the cutting to PCB.
Cutting mechanism is arranged on crossbeam 22, and can move left and right on crossbeam 22, specifically, the both sides up and down of described crossbeam 22 are equipped with slide unit, upper cutting mechanism 24 horizontally slips with upside slide unit and is connected, lower cutting mechanism 29 horizontally slips with downside slide unit and is connected, and controller controls upper cutting mechanism 24 and lower cutting mechanism 29 synchronously horizontally slips.Regulate cutting position by crossbeam, make this cutter sweep can adapt to different breadth, the cutting processing of different types of PC B.
vision detent mechanism:comprise video camera 9, light source 28, for adjusting the sagittal movable workbench 17 of PCB to be processed, for adjusting rotary table 19 and the manipulator 21 at PCB inclination angle to be processed, and corresponding mobile driver part 18, rotary driving part 20 and robot drives cylinder.Base is provided with longitudinal guide rail, and movable workbench 17 is arranged on guide rail, moves forward and backward workbench 17 under the drive of mobile driver part 18 at slide on rails; Described rotary table 19 is arranged on movable workbench 17; Described manipulator 21 and robot drives cylinder are arranged on rotary table 19.
Video camera 9 is arranged at the upper of cutter sweep, and light source 28 is arranged on the lower cutting mechanism 29 of lower cutter sweep, and light source 28 is corresponding with video camera 9, is positioned on same axis.Described video camera 25 is one or more, and light source 28 and video camera 25 one_to_one corresponding are arranged.Video camera and light source coaxial line are installed, the output of video camera is connected with controller, the image information collected by camera-scanning by data wire sends controller to, (" by carrying out image comparison process in the controller " this sentence removes,) by this Real-time Collection to image information and predetermined image information compare, calculate, then the information after calculating is changed in the controller, send instruction finally by controller.
Controller is connected with movable workbench 17 by mobile driver part 18, controls the movable of movable workbench 17.Mobile driver part 18 is primarily of drive motors, screw mandrel and feed screw nut's composition, and mobile driver part by driving motor supplies power, then realizes the drive that moves forward and backward by screw mandrel and feed screw nut.
Controller is connected with rotary table 19 by rotary driving part 20, controls the rotation of rotary table 19.Rotary driving part 20 can be selected servomotor, rotary cylinder or rotate the type of drive that direct-drive motor drives the rotation of screw mandrel drive link.
Controller is connected with manipulator 21 by robot drives cylinder, controls the pick-and-place of manipulator 21.The front end of robot drives cylinder is manipulator, and the processing line of manipulator and PCB to be processed is in same plane, and rotary table 19 and movable workbench 17 are all positioned at the rear of manipulator 21.
controller: its effect is the automation in order to realize whole V groove cutter sweep, and its control program is arranged according to structure described in the utility model and running.
application process is as follows:
The first step: place PCB, adjustment workbench: PCB201 to be processed is placed on feeding platform, using the table top of loading bay as benchmark, make the height of the PCB on feeding platform parallel with the table top of loading bay by adjustment feeding platform drive unit, make the height of discharging platform parallel with the table top of loading bay by adjustment discharging platform drive unit;
Second step, capture PCB201 to be processed: drive feeding platform to rise by feeding platform drive unit, sucker machinery descends drive unit to drive right sucker machinery subordinate to fall on hand, right sucker manipulator captures the PCB to be processed being positioned at top, then, sucker machinery descends drive unit to drive right sucker machinery to rise on hand on hand;
3rd step, mobile PCB201 to be processed is to loading bay: sucker manipulator left and right drive unit drives right sucker manipulator and left sucker manipulator toward moving left a station simultaneously, make left sucker manipulator be positioned at the top of discharging platform, right sucker manipulator is positioned at the top of loading bay; Sucker machinery descends drive unit to drive right sucker machinery subordinate to fall on hand, and crawled PCB to be processed is put on loading bay by right sucker manipulator; Drive loading bay by loading bay drive unit, PCB to be processed is entered in the cutting mechanism of loading bay rear end and processes.It is standby that right-hand member got back to by the left and right of sucker manipulator left and right drive unit driving simultaneously sucker manipulator.
4th step, cutting PCB:
First, the front end of loading bay drives winding to rotate by loading bay driver part, and PCB to be cut is moved to cutter sweep by winding.Controller controls robot drives cylinder, and robot drives cylinder driving mechanical hand moves entirety and moves to the rear end of PCB to be cut, and manipulator by PCB to be cut promptly.The positioning pressuring plate of front carrying portion rear end is moved downward by positioning pressuring plate cylinder, is pressed on location-plate by PCB to be cut.Being arranged on video camera on cutting mechanism with being arranged on together with the light source on lower cutting mechanism moves from right to left, the index point treating image on processing PCB plate or more than at least 2 scans, and send scanning result to controller, by controller, scan image and the theoretical digital document processed or detect are carried out comparing calculation, thus judge the deviation situation of machine direction and theoretical machine direction on pcb board to be processed, calculate optimal process or detect position, then transferring a command to controller.
Then, positioning pressuring plate upwards lifting by cylinder on loading bay, PCB front end to be cut is no longer suffered restraints, controller exports order and controls rotary table left rotation and right rotation, realize the angle adjustment before PCB cutting, controller export order control mobile driver part move forward and backward realize PCB move forward and backward adjustment, make PCB adjust to optimum Cutting position, as the P place in Fig. 3.
Afterwards, manipulator is under the driving of movable workbench driver part, grabbing PCB moves backward on first cutting position line, the positioning pressuring plate 21 of front carrying portion rear end is moved downward by cylinder, the PCB that will cut is pressed on location-plate, go up simultaneously, lower cutting mechanism drives at upper and lower cutter sweep left and right driver part and is moved to PCB right-hand member, upper cutting mechanism driver part drives upper cutting tool to be moved down into cutting position, lower cutting mechanism driver part drives lower cutting tool to be moved upwards up to cutting position, on, lower cutting tool is under the driving of upper and lower cutter sweep left and right driver part, mobile cutting from right to left, after arriving high order end, the upwards travelling backwards of upper cutting tool, the downward travelling backwards of lower cutting tool.Positioning pressuring plate upwards lifting by cylinder on loading bay, unclamp the PCB of first time cutting, movable workbench is under the driving of its drive part, driving mechanical hand clamping PCB moves forward a cutting unit, positioning pressuring plate is moved downward by cylinder, and the PCB that will cut for the second time is pressed on location-plate, carries out second time cutting, by that analogy, to the last one cutting processing technique is complete.
Manipulator, under the driving of movable workbench driver part, is sent PCB202 complete for unidirectional firm cutting back to loading bay, is returned to the rear end of cutting part afterwards.
5th step, the complete PCB202 of unidirectional firm cutting, under the counter-rotational driving force of loading bay drive unit, returns loading bay; Complete the unidirectional processing of PCB.
6th step, discharging: move the complete PCB202 of unidirectional firm cutting to discharging platform: left sucker machinery subordinate moves and captures the complete PCB202 of unidirectional firm cutting, then rises; Left sucker manipulator is toward moving left a station, and when left sucker manipulator is positioned at above discharging platform, left sucker machinery subordinate moves, and unclamps the hand of left sucker manipulator, is placed on discharging platform; Complete discharging, discharging platform is then place after testing or the PCB203 machined.Then to drive left and right sucker manipulator to get back to right-hand member standby simultaneously for sucker manipulator left and right drive unit.
PCB is two-way adds man-hour, standby left sucker manipulator is positioned on loading bay, then decline and adsorbed the PCB of unidirectional completion of processing, rise again, left sucker machinery hand-screw turns PCB degree of the carrying out rotation of the single-sided process driving the hand-motion of left sucker machinery on it or positive and negative rotates, left sucker machinery subordinate falls, by unidirectional processing and postrotational PCB is put on loading bay; Be conveyed in cutter sweep by loading bay and process, realize the two-way processing of PCB.
The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included within protection domain of the present utility model.
Claims (7)
1. a PCB-V groove cutter sweep, comprise cutting mechanism, cutting mechanism comprises cutter sweep, lower cutter sweep and upper and lower cutter sweep left and right driver part (23), it is characterized in that: also comprise automatic loading/unloading mechanism, vision detent mechanism and controller, described automatic loading/unloading mechanism comprises feeding platform (9), loading bay (6) and discharging platform (2), described feeding platform (9), loading bay (6) and discharging platform (2) are arranged from right to left successively, location-plate (12) is provided with in the rear end of loading bay (6), positioning pressuring plate (13) is provided with in the top of location-plate (12), positioning pressuring plate (13) is connected with positioning pressuring plate cylinder (16), controller is connected with positioning pressuring plate cylinder (16), and drive positioning pressuring plate (13) to move up and down by positioning pressuring plate cylinder (16), coordinate with location-plate (12) after positioning pressuring plate (13) down moves and PCB to be processed is clamped, described vision detent mechanism comprises video camera (25), light source (28), movable workbench (17), rotary table (19), robot drives cylinder, and mobile driver part (18), rotary driving part (20) and the manipulator (21) for adjusting PCB to be processed, video camera (25) is arranged on cutter sweep, and light source (28) is arranged on lower cutter sweep, and light source (28) is corresponding with video camera (25), and is positioned on same axis, controller is connected with upper and lower cutter sweep left and right driver part (23), and in drive, cutter sweep and lower cutter sweep move left and right, controller is connected with movable workbench (17) by mobile driver part (18), controls the movable of movable workbench (17), controller is connected with rotary table (19) by rotary driving part (20), controls the rotation of rotary table (19), controller is connected with manipulator (21) by robot drives cylinder, controls the pick-and-place of manipulator (21).
2. PCB-V groove cutter sweep as claimed in claim 1, it is characterized in that: described upper cutter sweep comprises cutting mechanism driver part (23), upper cutting mechanism (24) and upper cutting tool (26), upper cutting tool (26) is arranged on cutting mechanism (24), described controller is connected with upper cutting tool (26) by upper cutting mechanism driver part (23), and in control, cutting tool (26) moves up and down; Described lower cutter sweep comprises lower cutting mechanism driver part (30), lower cutting mechanism (29) and lower cutting tool (27), lower cutting tool (27) is arranged on lower cutting mechanism (29), described controller is connected with lower cutting tool (27) by lower cutting mechanism driver part (30), controls moving up and down of lower cutting tool (27).
3. PCB-V groove cutter sweep as claimed in claim 2, it is characterized in that: also comprise crossbeam (22), the both sides up and down of described crossbeam (22) are equipped with slide unit, upper cutting mechanism (24) horizontally slips with upside slide unit and is connected, lower cutting mechanism (29) horizontally slips with downside slide unit and is connected, and controller controls upper cutting mechanism (24) and lower cutting mechanism (29) synchronously horizontally slips.
4. PCB-V groove cutter sweep as claimed in claim 2, is characterized in that: described video camera (25) is arranged on cutting mechanism (24), and light source (28) is arranged on lower cutting mechanism (29).
5. PCB-V groove cutter sweep as claimed in claim 4, is characterized in that: described video camera (25) is one or more, and light source (28) and video camera (25) one_to_one corresponding are arranged.
6. PCB-V groove cutter sweep as claimed in claim 1, it is characterized in that: also comprise base, base is provided with longitudinal guide rail, and movable workbench (17) is arranged on guide rail, moves forward and backward workbench (17) under the drive of mobile driver part (18) at slide on rails; Described rotary table (19) is arranged on movable workbench (17); Described manipulator (21) and robot drives cylinder are arranged on rotary table (19).
7. PCB-V groove cutter sweep as claimed in claim 1, is characterized in that: described automatic loading/unloading mechanism also comprises feeding platform drive unit (11), loading bay drive unit (7), discharging platform drive unit (14), right sucker manipulator (8), left sucker manipulator (4), sucker machinery descend the mechanical hand-screw of drive unit (3), sucker manipulator left and right drive unit (10) and left sucker to turn driving (5) on hand; Feeding platform drive unit (11) is connected with feeding platform (9), and feeding platform drive unit (11) drives feeding platform (9) lifting; Loading bay drive unit (7) is connected with loading bay (6), and loading bay drive unit (7) drives loading bay (6) to rotate and retreats; Discharging platform drive unit (14) is connected with discharging platform (2), and discharging platform drive unit (14) drives discharging platform (2) lifting; Described right sucker manipulator (8) descends drive unit (3) to be connected with left sucker manipulator (4) and sucker machinery on hand, sucker machinery descends drive unit (3) to drive right sucker manipulator (8) and left sucker manipulator (4) lifting on hand, described right sucker manipulator (8) is connected with sucker manipulator left and right drive unit (10) with left sucker manipulator (4), and sucker manipulator left and right drive unit (10) drives right sucker manipulator (8) and left sucker manipulator (4) side-to-side movement; Left sucker manipulator (4) turns with left sucker machinery hand-screw and drives (5) to be connected, and the mechanical hand-screw of left sucker turns driving (5) and drives the rotation of left sucker manipulator (4) or turn-over.
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CN201520025913.9U CN204505373U (en) | 2015-01-15 | 2015-01-15 | A kind of PCB-V groove cutter sweep |
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CN201520025913.9U CN204505373U (en) | 2015-01-15 | 2015-01-15 | A kind of PCB-V groove cutter sweep |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN104526743A (en) * | 2015-01-15 | 2015-04-22 | 成都金大立科技有限公司 | PCB-V groove cutting device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN104526743A (en) * | 2015-01-15 | 2015-04-22 | 成都金大立科技有限公司 | PCB-V groove cutting device |
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