CN206403893U - A kind of 3D printing system based on multi-shaft interlocked control and machine vision metrology - Google Patents

Abstract

The utility model is related to a kind of 3D printing system based on multi-shaft interlocked control and machine vision metrology, including frame, workbench to place artificial bone scaffold, it is arranged on the printing equipment above workbench, device for transporting objects to convey printed material, IMAQ camera, drive mechanism and control system to adjust printing equipment orientation, printing equipment, device for transporting objects, image collecting device and drive mechanism are connected to control system, workbench is the Six Degree-of-Freedom Parallel Platform being connected in the frame, drive mechanism is six shaft mechanical arms, printing equipment is connected on six shaft mechanical arms.When using, artificial bone scaffold is placed on Six Degree-of-Freedom Parallel Platform, the position of printing equipment is controlled by six shaft mechanical arms, pass through the cooperation of Six Degree-of-Freedom Parallel Platform and six shaft mechanical arms, the accurate control to the printing nozzle locus of printing equipment is realized, the three dimensional patterned printing of complicated fine artificial bone surface and loose structure interior surface is realized.

Description

A kind of 3D printing system based on multi-shaft interlocked control and machine vision metrology

Technical field

The utility model is related to a kind of 3D printing system based on multi-shaft interlocked control and machine vision metrology, belongs to 3D printing Field.

Background technology

With the increasingly raising of living standard, people focus more on to health care.But because some diseases, traffic thing Therefore waiting causes skeleton major injury, because being limited by technical merit, it is difficult to repair at this stage, therefore many patients lose Self care ability, this all brings serious influence to patient and its family.The current master for this problem of bone defects Wanting method is repaired by autologous tissue transplantation, allograft, using alternative materials.These current methods are present Larger drawback, such as two operations, take bone amount limit, spread disease, osteogenic activity it is low.Autologous bone be from patient body its His position, obtains some bones, then uses the position of needs, and this mode, which exists, takes bone amount limited, and can not be expired The problems such as shape of sufficient demand.Bulk bone defect healing is always clinical orthopaedicses problem, and organizational engineering develops into Cranial defect Repair and provide new approaches, artificial bone is expected to the traditional autologous or homogeneous allogenic bone of substitution, it is to avoid patient's secondary insult.

Artificial bone supporting material and preparation also become study hotspot.Such as the A of CN 105287055, entitled " a kind of 3D is beaten In the Chinese invention patent application of the external bone of print individuation ", a kind of external bone of 3D printing individuation is disclosed, its step is： (1) the 3-D scanning information data of body area is collected, its design feature is analyzed；(2) by the three-dimensional of body area Scan data imports computer, and precise restoration obtains the 3-D view at patient scan position；(3) the above-mentioned graphics of analyzing anatomical Picture, obtains the reverse data of scanned position, and reconstruction obtains its threedimensional model；(4) threedimensional model is stored or is converted into form text Part；(5) afunction position obtained above threedimensional model is designed into corresponding body by computer with reference to human body big data Dermoskeleton servicing unit threedimensional model；(6) detection is compared in inspection software in designed external bone model, to design side Case, model are improved with being optimized；(7) the above-mentioned external bone servicing unit designed and body area threedimensional model are transported Auxiliary dynamic analog is carried out with computer；(8) above-mentioned threedimensional model is saved as into formatted file for transmission, storage is browsed, Check, modification and processing；(9) the external bone auxiliary transposition of 3D printing, quickly realizes mock-up.

For another example B of Authorization Notice No. CN 103948456, entitled " the pneumatic many shower nozzles of rotating disc type of Automated condtrol are biological In the Chinese invention patent of 3D printing formation system and method ", a kind of pneumatic many shower nozzles of rotating disc type of Automated condtrol are disclosed Biological 3D printing formation system, including injection apparatus, three-dimensional motion mechanism, forming table and control system, described injection dress Put using rotating disc type multi-nozzle injection apparatus, be arranged in three-dimensional motion mechanism on Z1 shaft movement mechanisms and with Z1 axle moving slide blocks Slide up and down；Described forming table is arranged in three-dimensional motion mechanism on X-axis moving slide block；Described control and data processing system System is the motor of connection control rotating disc type multi-nozzle injection apparatus and three-dimensional motion mechanism.The rotating disc type multi-nozzle injection apparatus Including control rotary tray motor, crossbeam, motor shaft, connecting tube, rotating disk, nut, syringe piston cylinder, syringe needle, axle sleeve, Groove type photoelectric switch and groove type photoelectric switch shelter；The crossbeam is fixedly mounted on Z1 axle moving slide blocks；The control turns Coil motor is screwed on crossbeam, and motor shaft is down；The axle sleeve is an external thread sleeve, motor shaft and axle Cover threaded one end connection；There is a through hole in the middle of the rotating disk, inner ring is internal thread, and rotating disk is connected with the axle sleeve other end, be interior External screw thread connected mode；Rotary tray motor operation drive motor axle rotation is controlled, while driving dial turning motion, that is, injection is driven Device piston barrel and syringe needle rotation；The rotating disk overhead surface installs 4 connecting tubes, and connecting tube is circumferentially evenly distributed on On rotating disk, tracheae is connected in connecting tube, has air pump to provide gas；Below the rotating disk on 4 internal thread holes of processing, the nut Partial outer face is processed into external screw thread, and the upper surface processing of nut reaches rhombus boss, can put into syringe piston cylinder, note Emitter piston barrel injection material solution, and be connected together with rotating disk internal and external threads, sealed between connection by sealing ring, to prevent Gas leakage；Gas is provided by air pump to extrude from syringe needle the material solution in syringe piston cylinder；The groove profile Optoelectronic switch is connected in below the crossbeam, and groove type photoelectric switch shelter is connected in disk upper surface, and control rotary tray motor operation turns Drive turntable rotation, the i.e. rotation of groove type photoelectric switch shelter to encounter the signal of groove type photoelectric switch after dynamic, stop dial movement, I.e. syringe needle reaches the position specified.

At present in the 3D printing method for preparing artificial bone, mainly there are the solid method of forming of light, layer separated growth method, melt Melt deposition production methods, selective laser sintering process, the ink-jet accumulation increasing material method of forming.The solid method of forming material therefor of light is photosensitive resin Deng its biocompatibility and degradability are all bad after implanting, or even cause toxicity.It is prepared by layer separated growth method , then will from level to level by hot pressing mechanism, it is necessary to which the materials such as hydroxyapatite to be first made to the lamelliform that can be crimped during artificial bone Thin slice is bonded together, in terms of materialogy angle, and this method is difficult to.The printed material that Fused Deposition Modeling method is used is needed There is certain intensity by processing of reeling off raw silk from cocoons, therefore material is very restricted, and the shape of processed complex is difficult in addition. The laser system price that selective laser sintering process is used is very expensive, and maintenance cost is higher, causes processing cost higher, not by The hydroxyapatite powder of sintering is difficult to remove.And ink-jet accumulation increase the material method of forming can directly by biofacies solubization solution and Hydroxyapatite powder bonds, it is to avoid the above method is to print conditions, the rigors of temperature environment.

In current 3D printing device, it there is nozzle structure and shower nozzle drive mechanism be complex, printing precision is more difficult The end of each shower nozzle in control, such as B of Authorization Notice No. CN 103948456 is in same plane, while being moved, in work Shower nozzle takes larger space when making, and is not suitable for the 3D printing of loose structure interior surface.

In consideration of it, the present inventor carries out in-depth study to above mentioned problem, there is this case generation then.

Utility model content

The purpose of this utility model be to provide a kind of simple structure, can improve printing precision based on multi-shaft interlocked control The 3D printing system of system and machine vision metrology.

In order to achieve the above object, the utility model is using such technical scheme：

A kind of 3D printing system based on multi-shaft interlocked control and machine vision metrology, including it is frame, artificial to place The workbench of bone support, the printing equipment being arranged on above workbench, the device for transporting objects to convey printed material, image Gather camera, drive mechanism and control system to adjust printing equipment orientation, printing equipment, device for transporting objects, figure As harvester and drive mechanism are connected to control system, the workbench is the six degree of freedom being connected in the frame Parallel connection platform, the drive mechanism is six shaft mechanical arms, and the printing equipment is connected on six shaft mechanical arms.

As a kind of preferred embodiment of the present utility model, the printing equipment includes mounting bracket, motor, cylinder, rotary process Blue and multiple shower head mechanisms, mounting bracket is connected on the six shaft mechanicals arm, and motor is arranged on mounting bracket, and rotary flange connects It is connected on the output shaft of motor, multiple shower head mechanisms are circumferentially equably laid on rotary flange, multiple shower head mechanisms are with can It is connected to along the mode that rotary flange is moved axially on mounting bracket, cylinder is arranged on mounting bracket and the piston rod of cylinder is provided with To the drive end for driving shower head mechanism to move, it is provided between shower head mechanism and rotary flange to make shower head mechanism return Resetting-mechanism.

As a kind of preferred embodiment of the present utility model, the mounting bracket includes protective cover, the first installing plate and second Installing plate, the first installing plate and the second installing plate set up the two ends in protective cover vertically separately, and the motor is fixed on the first installation On plate, the working hole stretched out for the shower head mechanism is provided with the second installing plate, the upper end of the shower head mechanism passes through first Rod hinge connection is on the rotary flange, and the resetting-mechanism is the first spring, and one end of the first spring is connected to rotary flange On, the other end is connected to the upper end of the shower head mechanism, is additionally provided with mounting post on the second installing plate, in addition to second connecting rod and Guide cylinder, one end of second connecting rod is hinged in mounting post, and the other end is hinged on guide cylinder, and the shower head mechanism is slideably It is located in guide cylinder.

As a kind of preferred embodiment of the present utility model, the shower head mechanism includes cylinder and is arranged on the inner chamber of cylinder The inner chamber of cylinder is separated into first chamber and second chamber by mobile piston, mobile piston, and printing nozzle is provided with cylinder, is beaten Print nozzle is connected with second chamber, and air inlet is provided with cylinder, and one end of air inlet is connected with first chamber, the other end and gas Source is connected, in addition to charging aperture, and one end of charging aperture is connected with second chamber, and the other end is connected with the device for transporting objects.

As a kind of preferred embodiment of the present utility model, pistons stops are provided with the second chamber, pistons stops are set In the top of the charging aperture.

As a kind of preferred embodiment of the present utility model, the shower head mechanism is 5, the printing of 5 shower head mechanisms The diameter of nozzle is respectively 120um, 100um, 80um, 50um, 30um.

As a kind of preferred embodiment of the present utility model, the device for transporting objects includes air compressor machine and material storage cylinder, The outlet side of air compressor machine is connected with the inlet end of material storage cylinder, and the discharge end of material storage cylinder passes through conveying with the charging aperture Pipe is connected, and electrically operated valve is provided with the conveying pipeline.

As a kind of preferred embodiment of the present utility model, the frame includes underframe, upper frame and is arranged on underframe and top The first side frame and the second side frame between frame, the six shaft mechanicals arm are arranged on upper frame, and the Six Degree-of-Freedom Parallel Platform is set Put on underframe, the six shaft mechanicals arm and the Six Degree-of-Freedom Parallel Platform are connected to the control system.

As a kind of preferred embodiment of the present utility model, described image collection camera is arranged on the first side frame and/or second On side frame.

The technical solution of the utility model is used, in use, artificial bone scaffold is placed on Six Degree-of-Freedom Parallel Platform, is led to The position that six shaft mechanical arms control printing equipment is crossed, passes through the cooperation of Six Degree-of-Freedom Parallel Platform and six shaft mechanical arms, realization pair The accurate control of the printing nozzle locus of printing equipment, realizes table inside complicated fine artificial bone surface and loose structure The three dimensional patterned printing in face, the utility model has the advantages that simple structure, can improve printing precision.The utility model is adopted The 3D printing technique for increasing the material method of forming with being accumulated based on ink-jet, using nanometer hydroxyapatite solution as printed material, utilizes machine The motion redundancy of tool arm realizes the three-dimensional multi-angle printing of material space pattern, realizes complicated fine artificial bone surface and porous The three dimensional patterned high-precision printing on inside configuration surface, passes through six shaft mechanical arms and the precision optical machinery of Six Degree-of-Freedom Parallel Platform Motion control and drop forming and diffusion control, make the printing precision of system reach printing flat resolution≤200 μm, interlayer point Resolution≤2 μm.

Brief description of the drawings

Fig. 1 structural representations of the present utility model；

Fig. 2 is the control principle drawing in the utility model；

Fig. 3 is the structural representation of printing equipment in the utility model；

Fig. 4 is the structural representation of printing equipment in the utility model (the first installing plate and protective cover are not shown in figure)；

Fig. 5 is the enlarged drawing at A in Fig. 4；

Fig. 6 is the structural representation of printing nozzle in the utility model；

In figure：

10- frame 11- upper frames

12- underframe the first side frames of 13-

The shaft mechanical arms of the second side frames of 14- 20- six

30- Six Degree-of-Freedom Parallel Platform 40- printing equipments

401- protective covers the second installing plates of 402-

403- motor 404- cylinders

405- shower head mechanism 406- first connecting rods

407- the first spring 408- mounting posts

409- second connecting rod 410- guide cylinders

411- rotary flange 412- necks

413- holding sections 414- working holes

415- the first installing plate 4050- cylinders

4051- first chamber 4052- second chambers

4053- moves piston 4054- sealing rings

4055- cone shaped pilot 4056- pistons stops

4057- printing nozzle 4058- air inlets

4059- charging aperture 4060- electrically operated valves

50- figures gather camera 60- air compressor machines

61- material storage cylinder 62- appendixs

63- conveying pipeline 70- control systems

Embodiment

In order to which the technical solution of the utility model is explained further, it is described in detail below in conjunction with the accompanying drawings.

Referring to figs. 1 to Fig. 6, a kind of 3D printing system based on multi-shaft interlocked control and machine vision metrology, including frame 10th, to place the workbench of artificial bone scaffold, the printing equipment being arranged on above workbench 40, to convey printed material Device for transporting objects, IMAQ camera 50, drive mechanism and control system 70 to adjust the orientation of printing equipment 40, beat Printing equipment puts 40, device for transporting objects, image collecting device 50 and drive mechanism and is connected to control system 70, by controlling system Each device co-ordination of the control of system 70.The workbench is the Six Degree-of-Freedom Parallel Platform 30 being connected in the frame 10, institute Drive mechanism is stated for six shaft mechanical arms 20, the printing equipment 40 is connected on six shaft mechanical arms 20.Control system 70 can be adopted With the B of Authorization Notice No. CN 103948456, entitled " the biological 3D printing shaping of the pneumatic many shower nozzles of rotating disc type of Automated condtrol Control and data handling system in system and method ", the control system 70 include computer and controller.Six shaft mechanical arms 20 For six axis robot, space feeding at any angle can be completed, can be directly from buying on the market, Six Degree-of-Freedom Parallel Platform 20 can carry out the adjustment of six-freedom degree to spatial pose, and it can use the B of Authorization Notice No. CN 104002299, title For the structure in " six-freedom parallel microfluidic platform ", I will not elaborate for concrete structure.

As a kind of preferred embodiment of the present utility model, the printing equipment 40 includes mounting bracket, motor 403, cylinder 404th, rotary flange 411 and multiple shower head mechanisms 405, mounting bracket are connected on the six shaft mechanicals arm 20, and motor 403 is set On mounting bracket, rotary flange 411 is connected on the output shaft of motor 403, and multiple shower head mechanisms 405 are circumferentially equably laid On rotary flange 411, multiple shower head mechanisms 405 are connected on mounting bracket in the way of it can be moved axially along rotary flange 411, Cylinder 404 is arranged on mounting bracket and the piston rod of cylinder 404 is provided with drive end to drive shower head mechanism 405 to move, It is provided between shower head mechanism 405 and rotary flange 411 to make the resetting-mechanism of the return of shower head mechanism 405.In embodiment, Output shaft, cylinder 404 and the three of shower head mechanism 405 of motor 403 be arranged in parallel.Using this structure, pass through the band of motor 403 Dynamic rotary flange 411 is rotated, and causes a certain shower head mechanism 405 to turn to predetermined position, is driven spray by cylinder 404 afterwards Head mechanism 405 is axially moveable so that a certain shower head mechanism 405 stretches out, and carries out 3D printing operation, the operation of shower head mechanism 405 Finish after the meeting, the shower head mechanism return is caused by cylinder 404 and resetting-mechanism, rotary flange is driven by motor 403 afterwards 411 rotate so that another shower head mechanism 405 turn to the corresponding position of cylinder 404, pass through cylinder 404 drive the shower nozzle machine Structure 405 stretches out, and such the utility model is when carrying out 3D printing operation, shower head mechanism 405 and other sprays in job state Head mechanism 405 is not at same plane, can avoid interference of other shower head mechanisms 405 to artificial bone scaffold.

As a kind of preferred embodiment of the present utility model, the mounting bracket include protective cover 401, the first installing plate 415 with And second installing plate 402, protective cover 401 is cylindrical in shape, and the first installing plate 415 and the second installing plate 402 are separately fixed at protective cover 401 two ends vertically, the motor 403 is fixed on the first installing plate 415, and the output shaft of motor 403 is installed through first Plate 415 is simultaneously extend into protective cover 401.The working hole stretched out for the shower head mechanism 405 is provided with the second installing plate 402 414, when a certain shower head mechanism 405 is turned to should pass through cylinder 404 and drive the shower head mechanism 405 from this at working hole 414 Working hole 414, which stretches out, carries out print job.The upper end of the shower head mechanism 405 is hinged on the rotation by first connecting rod 406 On flange 411, the resetting-mechanism is the first spring 407, and one end of the first spring 407 is connected on rotary flange 411, another End is connected to the upper end of the shower head mechanism 405, and mounting post 408, in addition to second connecting rod are additionally provided with the second installing plate 402 409 and guide cylinder 410, one end of second connecting rod 409 is hinged in mounting post 408, and the other end is hinged on guide cylinder 410, institute Shower head mechanism 405 is stated slideably to be located in guide cylinder 410.Preferably, neck 412 is provided with the piston rod of cylinder 404, The holding section 413 coordinated with neck 412 is correspondingly provided with the first connecting rod 406, the piston rod of cylinder 404 is extend out to necessarily During position, the neck 412 card leans against on holding section 413 and drives corresponding shower head mechanism 405 axially to be moved along guide cylinder 410 Dynamic, when neck 412 leaves holding section 413, shower head mechanism 405 is then acted in the first spring 407 and moved along guide cylinder 410, real The return of existing shower head mechanism 405.

As a kind of preferred embodiment of the present utility model, the shower head mechanism 405 includes cylinder 4050 and is arranged on cylinder The inner chamber of cylinder 4050 is separated into first chamber 4051 and second by the mobile piston 4053 of 4050 inner chamber, mobile piston 4053 Chamber 4052, is provided with printing nozzle 4057, printing nozzle 4057 is connected with second chamber 4052, in cylinder on cylinder 4050 4050 are provided with air inlet 4058, and one end of air inlet 4058 is connected with first chamber 4051, and the other end is connected with source of the gas, is also wrapped Charging aperture 4059 is included, one end of charging aperture 4059 is connected with second chamber 4052, and the other end is connected with the device for transporting objects. The utility model increases the material method of forming using ink-jet accumulation, and printed material is mainly nanometer hydroxyapatite, adds collagen, chitin Printed material is configured Deng auxiliary material, printed material is from the feeding second chamber 4052 of charging aperture 4059.Mobile live is promoted by source of the gas Plug 4053, mobile piston 4053 extrudes printed material from printing nozzle 4057, and source of the gas is by the pneumatics that will be described below Machine 60 is provided.The return of mobile piston 4053 is then realized by the feed supplement of charging aperture 4059.

As a kind of preferred embodiment of the present utility model, pistons stops 4053, piston are provided with the second chamber 4052 Block 4053 is arranged on the top of the charging aperture 4059.Preferably, the lower end of the cylinder 4050 forms cone shaped pilot 4055, the printing nozzle 4057 is arranged on cone shaped pilot 4055, and the charging aperture 4059 is arranged on pistons stops 4053 Between the printing nozzle 4057.Preferably, the contact surface of the mobile piston 4053 and the cylinder 4040 is provided with annular Sealing ring 4054 is provided with groove, annular groove.

As a kind of preferred embodiment of the present utility model, the shower head mechanism 405 is 5,5 shower head mechanisms 405 The diameter of printing nozzle 4057 be respectively 120um, 100um, 80um, 50um, 30um.The diameter shadow of printing nozzle 4057 The precision of printing and the speed of printing are rung, the printing nozzle of different printing nozzle diameters can be selected according to the requirement of printing 4057, the utility model realizes the switching of printing nozzle 4057 by motor 403, rotary flange 411 and cylinder 404, tool There is the easy switching of printing nozzle 4057, it is possible to increase the effect of printing effect

As a kind of preferred embodiment of the present utility model, the device for transporting objects includes air compressor machine 60 and material storage cylinder 61, the outlet side of air compressor machine 60 is connected with the inlet end of material storage cylinder 61 by appendix 62, the discharging of material storage cylinder 61 End is connected with the charging aperture 4059 by conveying pipeline 63, and electrically operated valve 4060 is provided with the conveying pipeline 63.Using this Printed material in material storage cylinder 61, is delivered in shower head mechanism 405 by structure by air pressure.

As a kind of preferred embodiment of the present utility model, the frame 10 includes underframe 12, upper frame 11 and is arranged on bottom The first side frame 13 and the second side frame 14 between frame 12 and upper frame 11, the six shaft mechanicals arm 20 is arranged on upper frame 11, described Six Degree-of-Freedom Parallel Platform 30 is arranged on underframe, and the six shaft mechanicals arm 20 and the Six Degree-of-Freedom Parallel Platform 30 are all connected with To the control system 70.As in embodiment, image collecting device 50 is equipped with the first side frame 13 and the second side frame 14.

Using the technical solution of the utility model, printed material is controlled to be sprayed from printing nozzle 4057 by air compressor machine 60 Go out, realize 3D printing, during printing, air compressor machine 60 produces high pressure, and the air inlet of shower head mechanism 405 is transported to by appendix 62 4058, sealing ring 4054 prevents air from entering printed material, is closed while the electrically operated valve 4060 being connected with charging aperture 4059 is in Closed state, prevents printed material from being discharged by charging aperture 4059, is moved downward by drive of high-pressure gas movement piston 4053, makes printing Material continuous-stable from printing nozzle 4057 sprays, and reaches the purpose of 3D printing.When mobile piston 4053 moves to piston gear When at block 4056, the mobile stop motion of piston 4053, while controlling air compressor machine 60 to stop to shower head mechanism 405 from control system 70 Supply gas, control system 70 controls the electrically operated valve 4060 being connected with charging aperture 4059 to open, and controls air compressor machine 60 to be deposited toward material Storage cylinder 61 is supplied gas, and driving printed material moves piston 4053 to the side of air inlet 4058 by the entrance shower head mechanism 405 of conveying pipeline 63 To motion, when printed material is full of shower head mechanism 405, electrically operated valve 4060 is closed, shower head mechanism 405 continues print job. In print procedure, by controlling the size of air pressure to control the jet velocity of printed material, the purpose of control accuracy is reached.

The utility model computer export before 3D printing needs the model of high-precision printing, and model is STL formatted files, Carry out after printing path planning, six shaft mechanical arms 20 and Six Degree-of-Freedom Parallel Platform 30 are controlled using multi-shaft interlocked control system 70 Cooperative motion, realizes the three dimensional patterned printing of complicated fine artificial bone surface and loose structure interior surface.By calculating Machine sets up the kinematics model of six shaft mechanical arms 20 and Six Degree-of-Freedom Parallel Platform 30, movement locus is optimized, by many Axle coordinated control system 70 completes six shaft mechanical arms 20 and the cooperative motion of Six Degree-of-Freedom Parallel Platform 30, and according to six shaft mechanical arms The 20 overall speed of service, reaches the shaping and diffusion control of printed droplets, and controls Six Degree-of-Freedom Parallel Platform 30 to cooperate with Complete the 3D printing of complex surface.Multi-shaft interlocked control mode can realize artificial bone surface and loose structure interior surface Three dimensional patterned high-precision printing, and improve the efficiency of printing.Further, due to six shaft mechanical arms 20 and six degree of freedom There is vibration in parallel connection platform 30, produce error influence printing precision, this patent is added in motion process to shake in motion process It is dynamic to suppress control, the kinetic model of six shaft mechanical arms 20 and Six Degree-of-Freedom Parallel Platform 30 is set up respectively, using based on linear The Linear Quadratic Control model of the method for Quadratic Optimal Control, six shaft mechanical arms 20 of design and Six Degree-of-Freedom Parallel Platform 30, The vibration produced in system operation is controlled, reduces six shaft mechanical arms 20 and Six Degree-of-Freedom Parallel Platform 30 in motion During the vibration that produces, so as to reduce because of the printing error that vibration is produced, it is ensured that the steady progress of printing, improve the essence of printing Degree.The utility model is respectively mounted two high-precision IMAQ cameras 50 on the first side frame 13 and the second side frame 14, uses The measuring method of binocular stereo vision is measured to the real time position of the end of printing nozzle 4057, obtains the end of printing nozzle 4057 The locus at end, its theoretical position is contrasted by the end real time position of printing nozzle 4057 obtained by measurement, carries out printing nozzle The real-time feedback control of 4057 terminal positions.Two high-precision IMAQ cameras 50 are from different position acquisition printing nozzles The two images of 4057 terminal positions, by calculating the position deviation of the distal point of printing nozzle 4057 in two images, acquisition is beaten Print the locus of the end of nozzle 4057.The space bit for the end of printing nozzle 4057 that high-precision IMAQ camera 50 is obtained Put precision and reach a μm level, the terminal position of printing nozzle 4057 is carried out according to the end real time position of printing nozzle 4057 of measurement real When feedback control, and pass through computer adjust six shaft mechanical arms 20 motion, it is ensured that high-precision printing.

It should be noted that in the utility model, control system 70 has been introduced in the prior art, its carrying Software function is also described in the prior art, and the utility model is by the selection of hardware and to combine control system high-precision to reach The purpose of the printing of degree.

The utility model has been made to the shower head mechanism of 3D printing system, 3D printing device and 3D printing device to be changed Enter, product form of the present utility model is not limited to this case diagram and embodiment, anyone carries out the appropriate of similar thinking to it Change is modified, and all should be regarded as not departing from patent category of the present utility model.

Claims (9)

1. a kind of 3D printing system based on multi-shaft interlocked control and machine vision metrology, including frame, to place artificial bone The workbench of support, the printing equipment being arranged on above workbench, the device for transporting objects to convey printed material, image are adopted Collect camera, drive mechanism and control system to adjust printing equipment orientation, printing equipment, device for transporting objects, image Harvester and drive mechanism are connected to control system, it is characterised in that：The workbench is to be connected in the frame Six Degree-of-Freedom Parallel Platform, the drive mechanism is six shaft mechanical arms, and the printing equipment is connected on six shaft mechanical arms.

2. a kind of 3D printing system based on multi-shaft interlocked control and machine vision metrology as claimed in claim 1, its feature It is：The printing equipment includes mounting bracket, motor, cylinder, rotary flange and multiple shower head mechanisms, and mounting bracket is connected to institute State on six shaft mechanical arms, motor is arranged on mounting bracket, and rotary flange is connected on the output shaft of motor, multiple shower head mechanism edges Circumferential to be equably laid on rotary flange, multiple shower head mechanisms are connected to installation in the way of it can be moved axially along rotary flange On frame, cylinder is arranged on mounting bracket and the piston rod of cylinder is provided with drive end to drive shower head mechanism to move, in spray It is provided between head mechanism and rotary flange to make the resetting-mechanism of shower head mechanism return.

3. a kind of 3D printing system based on multi-shaft interlocked control and machine vision metrology as claimed in claim 2, its feature It is：The mounting bracket includes protective cover, the first installing plate and the second installing plate, and the first installing plate and the second installing plate set up separately At the two ends of protective cover vertically, the motor is fixed on the first installing plate, is provided with the second installing plate and is supplied the shower nozzle The working hole that mechanism stretches out, the upper end of the shower head mechanism is hinged on the rotary flange by first connecting rod, described to reset Mechanism is the first spring, and one end of the first spring is connected on rotary flange, and the other end is connected to the upper end of the shower head mechanism, Mounting post, in addition to second connecting rod and guide cylinder are additionally provided with the second installing plate, one end of second connecting rod is hinged on mounting post On, the other end is hinged on guide cylinder, and the shower head mechanism is slideably located in guide cylinder.

4. a kind of 3D printing system based on multi-shaft interlocked control and machine vision metrology as claimed in claim 3, its feature It is：The shower head mechanism includes cylinder and is arranged on the mobile piston of the inner chamber of cylinder, and mobile piston divides the inner chamber of cylinder First chamber and second chamber are divided into, printing nozzle is provided with cylinder, printing nozzle is connected with second chamber, set on cylinder There is air inlet, one end of air inlet is connected with first chamber, and the other end is connected with source of the gas, in addition to charging aperture, the one of charging aperture End is connected with second chamber, and the other end is connected with the device for transporting objects.

5. a kind of 3D printing system based on multi-shaft interlocked control and machine vision metrology as claimed in claim 4, its feature It is：Pistons stops are provided with the second chamber, pistons stops are arranged on the top of the charging aperture.

6. a kind of 3D printing system based on multi-shaft interlocked control and machine vision metrology as claimed in claim 5, its feature It is：The shower head mechanism is 5, the diameter of the printing nozzle of 5 shower head mechanisms be respectively 120um, 100um, 80um, 50um、30um。

7. a kind of 3D printing system based on multi-shaft interlocked control and machine vision metrology as claimed in claim 6, its feature It is：The device for transporting objects includes air compressor machine and material storage cylinder, the outlet side of air compressor machine and the air inlet of material storage cylinder End connection, the discharge end of material storage cylinder is connected with the charging aperture by conveying pipeline, and motor-driven valve is provided with the conveying pipeline Door.

8. a kind of 3D printing system based on multi-shaft interlocked control and machine vision metrology as claimed in claim 1, its feature It is：The frame includes underframe, upper frame and the first side frame and the second side frame that are arranged between underframe and upper frame, described six Shaft mechanical arm is arranged on upper frame, and the Six Degree-of-Freedom Parallel Platform is arranged on underframe, the six shaft mechanicals arm and described six Free degree parallel connection platform is connected to the control system.

9. a kind of 3D printing system based on multi-shaft interlocked control and machine vision metrology as claimed in claim 8, its feature It is：Described image collection camera is arranged on the first side frame and/or the second side frame.