CN108315773A - A kind of method and device of precision 3D printing metal micro-mould - Google Patents

Abstract

The present invention proposes a kind of method and device of accurate 3D printing metal micro-mould.The 3D printing of metal is realized by electrochemical method, reaction tank of the connected component that needle tubing is constituted with conduit as electrochemistry, electric energy is provided by constant voltage dc source, needle end drop is contacted with working electrode plate, one is connected in conduit to electrode cable, pass through the adjusting to micro-injection pump fltting speed, so that the contact of the drop of needle end and the existing stabilization of working electrode plate, there is smaller contact area again, both the balance of Surface Tension of Liquid Drops and micro-injection pump propulsive force had been kept, the balance of drop delivery rate and its evaporation rate is kept again, to realize high-precision, stable electrochemistry print procedure.Present invention process is simple, of low cost, and reduce metal 3D printing platform builds cost；Using suitable electrolysis (plating) liquid, it can also carry out being applied in combination for electrolytic etching and the two on most of metal material with the specific structure of electroplating deposition, have wide range of applications.

Description

A kind of method and device of precision 3D printing metal micro-mould

Technical field

The present invention relates to a kind of method and devices of accurate 3D printing metal micro-mould.

Background technology

3D printing (3D Pringting) i.e. one kind of rapid shaping technique, it is one kind based on digital model file Three-dimensional increases material manufacturing technology.The process of 3D printing is：Computer modeling software modeling is first passed through, then the threedimensional model that will be built up " subregion " is sliced at section successively, to instruct printer successively to print.

3D printing technique is quickly changing the traditional mode of production and life style, beautiful as strategic emerging industries The developed countries such as state, Germany pay much attention to and actively promote the technology.The technology is in industrial design, building, engineering and construction, vapour Turner industry, aerospace, civil engineering, dentistry and medical industries, jewelry, footwear, education, GIS-Geographic Information System, food and Other field is all applied.

In terms of metal 3D printing, it is primarily present 5 kinds of methods, including precinct laser sintering (Selective at present LaserSintering, SLS) technology, direct metal laser sintering (DirectMetal Laser Sintering, DMLS) technology, precinct laser fusion (Selective LaserMelting, SLM) technology, laser near-net-shape (LaserEngineeredNet Shaping, LENS) technology and electron beam selective melting (ElectronBeam Selective Melting, EBSM) technology.

The above technology utilizes high-temperature molten metal to realize that forming, process need heat-agglomerating etc. easy at high temperature The problem of generating polluted gas, environmental pollution and lack of energy may be faced with the rapid development of this technology, is unfavorable for saving The era development demand of energy emission reduction.

Invention content

The present invention proposes that one kind is processed based on electrochemical method, with processing temperature is low, high precision machining, more The method of the accurate 3D printing metal micro-mould of energy-saving and emission-reduction；The present invention also aims to provide a kind of accurate 3D printing metal The device of micro-mould.

The method of the accurate 3D printing metal micro-mould of the present invention adopts the following technical scheme that：

The method of accurate 3D printing metal micro-mould：The needle tubing, conduit and syringe needle of 3D printing equipment are sequentially connected, and will Needle tubing is connected on micro-injection pump, and conduit inside conductor is inserted into conduit and is sealed in junction, by metal plate and One in conduit inside conductor be electrically connected with working electrode, another is electrically connected with to electrode, to make conduit inside conductor and with Metal plate respectively in conduit electrolysis or plating solution contacts to be electrochemically reacted, using electrochemical reaction metal by The processing of layer precipitation or successively etching progress micro-mould.

Further, the fltting speed of micro-injection pump is controlled so that the drop and working electrode plate small area of needle end are steady Fixed contact.

Further, the fltting speed is 0.1 μ L/min-10 μ L/min.

Further, conduit inside conductor is made to be electrically connected with to electrode, metal plate is electrically connected with working electrode to realize electricity The processing of plated deposition mode.

Further, make that conduit inside conductor is connect with working electrode point, metal plate is electrically connected with to electrode to realize electricity Solve the processing of etching mode.

Further, when selecting copper as printing metal, electrolysis or electroplate liquid are by cupric sulfate pentahydrate, sulfuric acid, hydrochloric acid, poly- Ethylene glycol (relative molecular weight 6000) and deionized water are formulated；When selecting nickel as printing metal, electrolysis or electroplate liquid By nickel sulfamic acid, nickel chloride, boric acid, Triton X-100 and deionized water are formulated.

Above-mentioned technical proposal is used, beneficial effects of the present invention are：Metal 3D printing provided by the invention is based on electrification The advantages such as method, processing temperature is low, and precision is high, energy-saving and emission-reduction, and equipment cost is low；In addition, present invention process is simple, it is at low cost Honest and clean, substantially reduce metal 3D printing platform builds cost；It, can be specific with electroplating deposition using suitable electrolysis (plating) liquid Structure, being applied in combination for electrolytic etching and the two can also be carried out on most of metal material, is had wide range of applications.

The device of the accurate 3D printing metal micro-mould of the present invention adopts the following technical scheme that：

The device of accurate 3D printing metal micro-mould includes 3D printing equipment body, and gold is provided on 3D printing equipment body Belonging to tablet and overhangs to the syringe needle on metal plate, syringe needle rear end is connected with electrolysis or electroplate liquid injection device by conduit, Electrolysis or electroplate liquid injection device include needle tubing and micro-injection pump, are coated with conduit inside conductor in conduit, conduit inside conductor and One in metal plate the two be conductively connected with working electrode, another connect with to electrodes conduct, when in use, in conduit Conducting wire and with metal plate respectively in conduit electrolysis or plating solution contacts to be electrochemically reacted, utilize electrochemical reaction Metal successively precipitate or successively etch carry out micro-mould processing.

Further, the material of the syringe needle is non-conductive material.

Further, the specification of the syringe needle is 25G-30G.

Further, when selecting copper as printing metal, electrolysis or electroplate liquid are by cupric sulfate pentahydrate, sulfuric acid, hydrochloric acid, poly- Ethylene glycol (relative molecular weight 6000) and deionized water are formulated；When selecting nickel as printing metal, electrolysis or electroplate liquid By nickel sulfamic acid, nickel chloride, boric acid, Triton X-100 and deionized water are formulated.

Above-mentioned technical proposal is used, beneficial effects of the present invention are：Metal 3D printing provided by the invention is based on electrification The advantages such as method, processing temperature is low, and precision is high, energy-saving and emission-reduction, and equipment cost is low；In addition, present invention process is simple, it is at low cost Honest and clean, substantially reduce metal 3D printing platform builds cost；It, can be specific with electroplating deposition using suitable electrolysis (plating) liquid Structure, being applied in combination for electrolytic etching and the two can also be carried out on most of metal material, is had wide range of applications.

Description of the drawings

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technology description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of invention without having to pay creative labor, may be used also for those of ordinary skill in the art With obtain other attached drawings according to these attached drawings.

Fig. 1 is the structural schematic diagram of the device of the accurate 3D printing metal micro-mould of the present invention；

Fig. 2 is the partial schematic diagram at syringe needle；

Fig. 3 is the partial schematic diagram at micro-injection pump；

Wherein：1-3D printing device bodies, 2- micro-injection pumps, 3- needle tubings, 4- metal plates, 5- wire clips, 6- are led Pipe, 7- syringe needles, 8- connect the electric wire to electrode, and 9- connects the electric wire of working electrode, 10- conduit inside conductors.

Specific implementation mode

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation describes, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

Early-stage preparations：The polishing of red copper plate surface, the one side using the sand paper polishing red copper of 500 mesh for plating, gradually It is polished to the sand paper of 2000 mesh, the polishing of each process continues 10min.Then red copper plate surface is removed in supersonic wave cleaning machine Greasy dirt and sand paper particle.

The preparation of electroplating solution, solution is by cupric sulfate pentahydrate (200g/L), sulfuric acid (50g/L), hydrochloric acid (60mg/L), poly- second Glycol (0.1g/L) and deionized water are formulated by a certain percentage.

Syringe needle 7 is fixed on to realize the plating of preset path in 3D printing equipment 1, in needle tubing 3 injection configured Electroplate liquid is loaded on micro-injection pump 2, and it is 1 μ L/min that setting, which promotes rate,.

The G code for opening the representative preset path finished writing on computers sends signal to 3D printing equipment 1 and realizes syringe needle 7 movement deposited one layer of metallic copper on mobile path.

The specific embodiment of the device of 3D printing metal micro-mould：As shown in Figs. 1-3, the device of 3D printing metal micro-mould Including 3D printing equipment 1, micro-injection pump 2, needle tubing 3, metal plate 4, wire clip 5, conduit 6, syringe needle 7, connect to electrode Electric wire 8, the electric wire 9 for connecing working electrode, conduit inside conductor 10.Include the following steps：(1) needle tubing 3, conduit 6 and syringe needle 7 are connected, And ensure good leakproofness；(2) fltting speed of micro-injection pump 2 is controlled so that the drop at 7 end of syringe needle and working electrode plate The contact of existing stabilization, and have smaller contact area；(3) computer starting 3D printing program, syringe needle 7 are moved with preset path It is dynamic, realize the 3D printing of metal.The material of syringe needle 7 is electrically non-conductive material；Electrically non-conductive material includes macromolecule resin (such as polypropylene Resin), inorganic material (such as silicon carbide)；Sealing material is hot melt adhesive or sealing material further includes unsintered tape, AB glue, 502 glue Water etc..7 specification of syringe needle is 25G-30G.Fltting speed is 0.1 μ L/min-10 μ L/min.When selecting copper as printing metal, Electrolysis or electroplate liquid by cupric sulfate pentahydrate, sulfuric acid, hydrochloric acid, polyethylene glycol (relative molecular weight 6000) and deionized water preparation and At；When selecting nickel as printing metal, electrolysis or electroplate liquid are by nickel sulfamic acid, nickel chloride, boric acid, polyethylene glycol octyl benzene Base ether and deionized water are formulated.(plating) solution is electrolysed by the salting liquid of offer metal ion, metal in main salt can be complexed The complexing agent of ion forming complex, for the buffer of stablizing solution acid-base value and special additive (such as brightener, leveling Agent, wetting agent, fog inhibitor etc.) composition.10 material of conduit inside conductor is red copper, as to electrode (anode), is electroplated for keeping Copper ion is constant in solution；10 material of conduit inside conductor includes the other materials that metal ion is provided for electroplating solution.Metal 4 material of tablet is red copper, as working electrode (cathode), for one layer of raised structure of electroplating deposition on it；Metal plate 4 The function of needing is good for electric conductivity, including the material with good conductivity such as brass, copper alloy, stainless steel.Conduit inside conductor 10 Electrode wires 8 are connect with connecing, metal plate 4 is connect with working electrode electric wire 9 is connect, and can reach one layer of structure of electroplating deposition Function；Conduit inside conductor 10 is connect with working electrode electric wire 9 is connect, and metal plate 4 connect electrode wires 8 with connecing, and can reach The function of one layer of structure of electrolytic etching, and its be combined with each other and form specific carinate or trench structure function.The gold that can be printed Category includes the metals such as copper, nickel, iron, cobalt, tungsten and its alloy.

The specific embodiment of the method for the kind 3D printing metal micro-mould of the present invention：By the needle tubing of 3D printing equipment, conduit Be sequentially connected with syringe needle, and needle tubing be connected on micro-injection pump, by conduit inside conductor be inserted into conduit in and junction into Row sealing, one in metal plate and conduit inside conductor is electrically connected with working electrode, another is electrically connected with to electrode, from And make conduit inside conductor and with metal plate respectively in conduit electrolysis or plating solution contacts to be electrochemically reacted, utilize The metal of electrochemical reaction successively precipitates or successively etches the processing for carrying out micro-mould.

Further, the fltting speed of micro-injection pump is controlled so that the drop and working electrode plate small area of needle end are steady Fixed contact.

Further, the fltting speed is 0.1 μ L/min-10 μ L/min.

Further, conduit inside conductor is made to be electrically connected with to electrode, metal plate is electrically connected with working electrode to realize electricity The processing of plated deposition mode.

Further, make that conduit inside conductor is connect with working electrode point, metal plate is electrically connected with to electrode to realize electricity Solve the processing of etching mode.

Further, electrolysis or electroplate liquid are by cupric sulfate pentahydrate, sulfuric acid, hydrochloric acid, polyethylene glycol (relative molecular weight 6000) It is formulated with deionized water.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all essences in the present invention With within principle, any modification, equivalent replacement, improvement and so on should all be included in the protection scope of the present invention god.

Claims (10)

1. the device of accurate 3D printing metal micro-mould, which is characterized in that including 3D printing equipment body, 3D printing equipment body On be provided with metal plate and overhang to the syringe needle on metal plate, syringe needle rear end is connected with electrolysis or electroplate liquid by conduit Injection device, electrolysis or electroplate liquid injection device include needle tubing and micro-injection pump, and conduit inside conductor, conduit are coated in conduit One in both inside conductor and metal plate be conductively connected with working electrode, another connect with to electrodes conduct, using When, conduit inside conductor and with metal plate respectively in conduit electrolysis or plating solution contacts to be electrochemically reacted, utilize The metal of electrochemical reaction successively precipitates or successively etches the processing for carrying out micro-mould.

2. the device of precision 3D printing metal micro-mould according to claim 1, which is characterized in that the material of the syringe needle For non-conductive material.

3. the device of precision 3D printing metal micro-mould according to claim 2, which is characterized in that the specification of the syringe needle For 25G-30G.

4. the device of the accurate 3D printing metal micro-mould according to claim 1-3 any one, which is characterized in that selecting When selecting copper as printing metal, electrolysis or electroplate liquid are by cupric sulfate pentahydrate, sulfuric acid, hydrochloric acid, polyethylene glycol (relative molecular weight 6000) it is formulated with deionized water；When selecting nickel as printing metal, electrolysis or electroplate liquid are by nickel sulfamic acid, chlorination Nickel, boric acid, Triton X-100 and deionized water are formulated.

5. the method for accurate 3D printing metal micro-mould, which is characterized in that successively by the needle tubing, conduit and syringe needle of 3D printing equipment Connection, and needle tubing is connected on micro-injection pump, conduit inside conductor is inserted into conduit and is sealed in junction, it will be golden Belong to one in tablet and conduit inside conductor be electrically connected with working electrode, another is electrically connected with to electrode, to make in conduit Conducting wire and with metal plate respectively in conduit electrolysis or plating solution contacts to be electrochemically reacted, utilize electrochemical reaction Metal successively precipitate or successively etch carry out micro-mould processing.

6. according to the method for accurate 3D printing metal micro-mould shown in claim 5, which is characterized in that control micro-injection pump Fltting speed so that drop and the working electrode plate small area of needle end are steadily contacted.

7. according to the method for accurate 3D printing metal micro-mould shown in claim 5 or 6, which is characterized in that the propulsion speed Degree is 0.1 μ L/min-10 μ L/min.

8. according to the method for accurate 3D printing metal micro-mould shown in claim 5 or 6, which is characterized in that make to lead in conduit Line is electrically connected with to electrode, metal plate is electrically connected with working electrode to realize the processing of electroplating deposition regime.

9. according to the method for accurate 3D printing metal micro-mould shown in claim 5 or 6, which is characterized in that make to lead in conduit Line is connect with working electrode point, metal plate is electrically connected with to electrode to realize the processing in a manner of electrolytic etching.

10. according to the method for accurate 3D printing metal micro-mould shown in claim 5 or 6, which is characterized in that make in selection copper When to print metal, electrolysis or electroplate liquid by cupric sulfate pentahydrate, sulfuric acid, hydrochloric acid, polyethylene glycol (relative molecular weight 6000) and are gone Ionized water is formulated；When selecting nickel as printing metal, electrolysis or electroplate liquid are by nickel sulfamic acid, nickel chloride, boric acid, gather Ethylene glycol octyl phenyl ether and deionized water are formulated.