CN107893247A - A kind of high pressure automatic cycle liquid-supplying system - Google Patents
A kind of high pressure automatic cycle liquid-supplying system Download PDFInfo
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- CN107893247A CN107893247A CN201711304046.2A CN201711304046A CN107893247A CN 107893247 A CN107893247 A CN 107893247A CN 201711304046 A CN201711304046 A CN 201711304046A CN 107893247 A CN107893247 A CN 107893247A
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- fixedly connected
- closure
- fluid reservoir
- high pressure
- supplying system
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- C—CHEMISTRY; METALLURGY
- C25—ELECTROLYTIC OR ELECTROPHORETIC PROCESSES; APPARATUS THEREFOR
- C25D—PROCESSES FOR THE ELECTROLYTIC OR ELECTROPHORETIC PRODUCTION OF COATINGS; ELECTROFORMING; APPARATUS THEREFOR
- C25D5/00—Electroplating characterised by the process; Pretreatment or after-treatment of workpieces
- C25D5/08—Electroplating with moving electrolyte e.g. jet electroplating
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- C—CHEMISTRY; METALLURGY
- C25—ELECTROLYTIC OR ELECTROPHORETIC PROCESSES; APPARATUS THEREFOR
- C25D—PROCESSES FOR THE ELECTROLYTIC OR ELECTROPHORETIC PRODUCTION OF COATINGS; ELECTROFORMING; APPARATUS THEREFOR
- C25D21/00—Processes for servicing or operating cells for electrolytic coating
- C25D21/12—Process control or regulation
- C25D21/14—Controlled addition of electrolyte components
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- Chemical & Material Sciences (AREA)
- Engineering & Computer Science (AREA)
- Chemical Kinetics & Catalysis (AREA)
- Electrochemistry (AREA)
- Materials Engineering (AREA)
- Metallurgy (AREA)
- Organic Chemistry (AREA)
- Automation & Control Theory (AREA)
- Filling, Topping-Up Batteries (AREA)
- Electrolytic Production Of Metals (AREA)
Abstract
The invention discloses a kind of high pressure automatic cycle liquid-supplying system, including fluid reservoir, the top of the closure is equidistant through being connected with sealing ring, left side at the top of the closure, which is run through, is connected with return duct, middle part at the top of the closure, which is run through, is connected with extruding pipe, right side at the top of the closure, which is run through, is connected with air inlet pipe, top on the right side of the fluid reservoir is fixedly connected with air outlet valve, side of the return duct away from closure is socketed with return valve, side of the extruding pipe away from filter is socketed with extrusion valve, intake valve is socketed with the outside of the air inlet pipe, air pump is fixedly connected with the top of the air inlet pipe.The use that the present invention passes through closure, sealing ring, air inlet pipe and intake valve, solve the problems, such as that printing device printing effect is relatively low, by the use of A tanks, B tanks, C tanks, transverse tube and return valve, solve the problems, such as that traditional liquid supply equipment can not recycle electrolyte solution.
Description
Technical field
The present invention relates to the processing and manufacturing for microstructure part and the circulatory system technical field of electrolyte, is specially
A kind of high pressure automatic cycle liquid-supplying system.
Background technology
Jet-electrodeposited method belongs to one of special process new technology, is proposed at first in 1974 by NASA, with conventional electrodeposition
Immersion processing is compared, and in jet-electrodeposited method, electrodeposit liquid is to be delivered to negative electrode base from anode nozzle in the form of " injection "
Plate, therefore, the technology have the characteristics of selectivity and fast deposition velocity, can implement parcel plating to large parts, such as available
Plating in abrasion or the reparation of damage location and blind hole, deep hole, jet-electrodeposited method are increasingly subject to domestic and international expert, scholar
Attention, at present, be applied in many fields.
Mainly there are two kinds for the jet-electrodeposited method printer liquid-supplying system of electrolyte in the market, the first is with latent
Water pump is kinetic energy, and its principle is by the mechanical energy of prime mover or other external energies transmission liquid, increases liquid energy, from
And be flowed at shower nozzle and be electrolysed, shortcoming is when electrolyte solution is in strong acid and strong base, can corrode immersible pump, easily bad
Fall, second is kinetic energy with non-diving magnetic drive pump, and its principle is to drive outer magnet rotor to rotate by motor, and magnetic field can penetrate
Air-gap and namagnetic substance, drive the interior magnet rotor being connected with impeller to make synchronous rotary, realize the non contact transmission of kinetic energy,
So as to realize the flowing of electrolyte, shortcoming is must be hydraulically full in advance in the pipeline of electrolyte, can just make its flowing, through undue
Analysis, both the above method have common problem:The nozzle of printer is smaller, and substantial amounts of electrolyte is pooled at nozzle, hinders liquid
Become big, motor high capacity operation or resistance turn, and cause engine to generate heat, operating efficiency is very low, and vane pump used above is very
Difficulty realizes high pressure, is difficult to control.
The content of the invention
It is an object of the invention to provide a kind of high pressure automatic cycle liquid-supplying system, possesses true high pressure and can control electricity
The advantages of solving liquid, solves the problems, such as that printing effect is not high.
To achieve the above object, the present invention provides following technical scheme:A kind of high pressure automatic cycle liquid-supplying system, including storage
Flow container, the fluid reservoir include A tanks, B tanks and C tanks, and the bottom on the inside of the fluid reservoir is fixedly connected with corrosion-resistant inner bag base,
It is fixedly connected with polytetrafluoro beaker in the middle part of the corrosion-resistant inner bag base top, the bottom on the right side of the polytetrafluoro beaker is fixed
It is connected with the next liquid-level controller, the top on the left of the polytetrafluoro beaker is fixedly connected with upper liquid-level controller, the storage
The both sides of flow container inwall have been fixedly connected with electromagnetic heater, and the inner chamber of the fluid reservoir is contained with distilled water, the polytetrafluoro
The inner chamber of beaker is contained with electrolyte solution, and closure, the both sides of the closure bottom are overlapped with the top of the fluid reservoir
It is fixedly connected with tightening device, the top of the closure is equidistant through being connected with sealing ring, the left side at the top of the closure
Through return duct is connected with, the bottom of the return duct through sealing ring and extends to the inner chamber of polytetrafluoro beaker, described close for side
The middle part at capping top through closure and is extended in polytetrafluoro beaker through extruding pipe, the bottom of the extruding pipe is connected with
The bottom of side, the right side at the top of the closure through sealing ring and are prolonged through air inlet pipe, the bottom of the air inlet pipe is connected with
Extend the inner chamber of fluid reservoir, the top on the right side of the fluid reservoir is fixedly connected with air outlet valve, and the return duct is away from closure
Side is socketed with return valve, and side of the extruding pipe away from closure is fixedly connected with filter, and the extruding pipe is away from mistake
The side of filter is socketed with extrusion valve, and intake valve is socketed with the outside of the air inlet pipe, is fixedly connected at the top of the return duct
There is transverse tube, be fixedly connected with electrolytic cell on the left of the transverse tube, the bottom on the inside of the electrolytic cell is fixedly connected with workbench, institute
The bottom for stating electrolytic cell is fixedly connected with support, and the top on the right side of the support is fixedly connected with printing head, the air inlet pipe
Top be fixedly connected with air pump.
Preferably, the top of the air outlet valve, which is run through, is connected with escape pipe, and the top on the right side of the fluid reservoir is through connection
There is sealing ring.
Preferably, the top of the printing head and the right side of workbench are electrically connected with external power supply, the printer
For 3D printer.
Preferably, the quantity of the fluid reservoir is three, and three described fluid reservoirs etc. are big.
Preferably, the right side of the escape pipe through sealing ring and extends to the inner chamber of fluid reservoir.
Preferably, the bottom of the electrolytic cell is fixedly connected with the bottom on the inside of support, and the workbench is located at electrolytic cell
Inner chamber.
Preferably, the polytetrafluoro beaker is located at the inner chamber of fluid reservoir, and the liquid level of the distilled water is less than poly- four
The height of fluorine beaker.
Preferably, the closure is circular lid, and the diameter of the closure is more than the diameter on the outside of fluid reservoir.
Preferably, it is fixedly connected with woven hose at the top of the extruding pipe, the left side of the woven hose and printing head
Right side is fixedly connected.
Compared with prior art, beneficial effects of the present invention are as follows:
1st, being used cooperatively by closure, tightening device, sealing ring, air inlet pipe and intake valve of the invention so that beating
Whole device can accomplish good seal and be capable of the pressure size of control system during print, be realized truly so as to reach
High pressure and the controllable purpose of pressure, solve printing device causes printing effect relatively low due to not accomplishing true high pressure
Problem.
2nd, the cooperation that the present invention passes through fluid reservoir, corrosion-resistant inner bag base, office's servo beaker, electromagnetic heater and distilled water
Use so that internal structure corrosion resistance strengthens and can used the method for heating water bath to heat, and prolongs so as to reach equipment
Long life and the purpose of homogeneous heating, solve electrolyte solution uneven heating and cause printing effect is bad to ask
Topic.
3rd, the present invention being used cooperatively by return duct, extruding pipe, air inlet pipe, return valve, extrusion valve and intake valve so that
Electrolyte solution 8 inside the feed flow circulatory system is controlled effectively, and so as to reach the purpose of control electrolyte solution, solves
The problem of traditional feed flow can not effectively control electrolyte solution.
4th, being used cooperatively by A tanks, B tanks, tank, return duct, transverse tube and return valve of the invention so that be not electrolysed
Solution can be recycled again, so as to reach the recycled purpose of electrolyte solution, is solved traditional feed flow and is set
Standby the problem of can not recycling electrolyte solution well.
5th, the present invention passes through corrosion-resistant inner bag base, polytetrafluoro beaker, the next liquid-level controller and upper liquid-level controller
Be used cooperatively so that the liquid in liquid-supplying system can be monitored effectively, so as to reach electrolyte solution is carried out it is accurate
The purpose of control, solves the phenomenon for easily occurring conduit suck-back and insufficient electrolyte in liquid-supplying system.
Brief description of the drawings
Fig. 1 is schematic structural view of the invention;
Fig. 2 uses new A tank enlarged drawing for this.
In figure:Under 1 fluid reservoir, 101 A tanks, 102 B tanks, 103 C tanks, 2 corrosion-resistant inner bag bases, 3 polytetrafluoro beakers, 4
Position liquid-level controller, 5 upper liquid-level controllers, 6 electromagnetic heaters, 7 distilled water, 8 electrolyte solutions, 9 closures, 10 fastening dresses
Put, 11 sealing rings, 12 return ducts, 13 extruding pipes, 14 air inlet pipe, 15 air outlet valves, 16 escape pipes, 17 return valves, 18 filters, 19
Extrude valve, 20 intake valves, 21 transverse tubes, 22 electrolytic cells, 23 workbench, 24 supports, 25 printing heads, 26 external power supplys, 27 air pumps,
28 woven hoses.
Embodiment
Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete
Site preparation describes, it is clear that described embodiment is only part of the embodiment of the present invention, rather than whole embodiments.It is based on
Embodiment in the present invention, those of ordinary skill in the art are obtained every other under the premise of creative work is not made
Embodiment, belong to the scope of protection of the invention.
Fig. 1-2 is referred to, the present invention provides a kind of technical scheme:A kind of high pressure automatic cycle liquid-supplying system, including liquid storage
Tank 1, common immersible pump, its operating voltage is in 12V~40V, maximum (top) speed 6500, can produce 40kpa pressure, pressure precision
Probably between 0.05 to 0.1, the high pressure feed flow circulatory system of the invention is that fluid reservoir 1 is inflated to increase feed flow by air pump 27
System pressure, 60~100kpa pressure can be produced, pressure precision is 0.01 or so, and the present invention preferably solves biography
The some shortcomings of the immersible pump of system and non-diving magnetic drive pump, liquid resistance will not be produced, it is of the invention using corrosion-resistant inner bag base 2 and poly-
Tetrafluoro beaker 3 is used as system liquid carrier, traditional technology, solves corrosion pump and asks and cause service life is not long to ask
Topic, the frequent high capacity operation of pump, operating efficiency is very low, and the present invention is controlled into the inner chamber of fluid reservoir 1 by adjusting intake valve 20
Air capacity, can control pressure well size, the quantity of fluid reservoir 1 is three, and three grades of fluid reservoir 1 are big, fluid reservoir 1
Including A tanks 101, B tanks 102 and C tanks 103, the bottom of the inner side of fluid reservoir 1 is fixedly connected with corrosion-resistant inner bag base 2, corrosion-resistant interior
The middle part at the top of courage base 2 is fixedly connected with polytetrafluoro beaker 3, and polytetrafluoro beaker 3 is located at the inner chamber of fluid reservoir 1, distilled water 7
Liquid level is less than the height of polytetrafluoro beaker 3, and the bottom on the right side of polytetrafluoro beaker 3 is fixedly connected with the next liquid-level controller
4, the top in the left side of polytetrafluoro beaker 3 is fixedly connected with upper liquid-level controller 5, is burnt by corrosion-resistant inner bag base 2, polytetrafluoro
Cup 3, the next liquid-level controller 4 and upper liquid-level controller 5 are used cooperatively so that the liquid in liquid-supplying system can be effective
Monitoring, so as to reach the purpose that accurate control is carried out to electrolyte solution 8, solve in liquid-supplying system and conduit easily occur and fall
Inhale and the phenomenon of insufficient electrolyte, the both sides of the inwall of fluid reservoir 1 have been fixedly connected with electromagnetic heater 6, the inner chamber of fluid reservoir 1 is contained
Distilled water 7 is placed with, passes through matching somebody with somebody for fluid reservoir 1, corrosion-resistant inner bag base 2, office's servo beaker 3, electromagnetic heater 6 and distilled water 7
Close and use so that internal structure corrosion resistance strengthens and can used the method for heating water bath to heat, so as to reach equipment
Increase the service life and the purpose of homogeneous heating, solve the uneven heating of electrolyte solution 8 and cause printing effect bad
Problem, the inner chamber of polytetrafluoro beaker 3 are contained with electrolyte solution 8, and the present invention is when electrolyte solution 8 are heated, using water
The method for bathing heating, electrolyte solution 8 are placed in the distilled water 7 of the inner chamber of fluid reservoir 1 in the inner chamber of polytetrafluoro beaker 3, passed through
Electromagnetic heater 6 it is antipyretic so that distilled water 7 is by electrolyte solution 8 of the temperature conduction to the inner chamber of polytetrafluoro beaker 3, this side
Method heating it is gentleer, be uniformly heated, be not in caused by uneven heating container burst situation appearance, more
Safety and stability, it ensure that print job can continue to carry out, the top of fluid reservoir 1 is overlapped with closure 9, and closure 9 is circle
Lid, the diameter of closure 9 are more than the diameter in the outside of fluid reservoir 1, and the both sides of the bottom of closure 9 are fixedly connected with tightening device 10,
The top of closure 9 is equidistant through sealing ring 11 is connected with, and the left side at the top of closure 9 is returned through return duct 12 is connected with
The bottom of flow tube 12 is through sealing ring 11 and extends to the inner chamber of polytetrafluoro beaker 3, and the middle part at the top of closure 9, which is run through, to be connected with
Extruding pipe 13, the top of extruding pipe 13 are fixedly connected with woven hose 28, and the left side and the right side of printing head 25 of woven hose 28 are consolidated
Fixed connection, the bottom of extruding pipe 13 run through closure 9 and extend to the bottom of the inner side of polytetrafluoro beaker 3, the right side at the top of closure 9
Side through sealing ring 11 and extends to the inner chamber of fluid reservoir 1, fluid reservoir 1 through air inlet pipe 14, the bottom of air inlet pipe 14 is connected with
Air outlet valve 15 is fixedly connected with the top of right side, the top of air outlet valve 15, which is run through, is connected with escape pipe 16, the right side of escape pipe 16
Through sealing ring 11 and the inner chamber of fluid reservoir 1 is extended to, the top on the right side of fluid reservoir 1, which is run through, is connected with sealing ring 11, return duct
12 sides away from closure 9 are socketed with return valve 17, by return duct 12, extruding pipe 13, air inlet pipe 14, return valve 17, squeeze
Going out being used cooperatively for valve 19 and intake valve 20 so that the electrolyte solution 8 inside the feed flow circulatory system is controlled effectively, from
And reach the purpose of control electrolyte solution 8, solve the problems, such as that traditional feed flow can not effectively control electrolyte solution 8, squeeze
Side of the outlet pipe 13 away from closure 9 is fixedly connected with filter 18, and side of the extruding pipe 13 away from filter 18 is socketed with crowded
Go out valve 19, the outside of air inlet pipe 14 is socketed with intake valve 20, passes through closure 9, tightening device 10, sealing ring 11, air inlet pipe 14
With being used cooperatively for intake valve 20 so that in print procedure whole device can accomplish good seal and can control be
The pressure size of system, true high pressure and the controllable purpose of pressure are realized so as to reach, solves printing device due to doing not
The problem of causing printing effect relatively low to true high pressure, the top of return duct 12 is fixedly connected with transverse tube 21, by A tanks 101,
B tanks 102, C tanks 103, return duct 12, transverse tube 21 and return valve 17 are used cooperatively so that the solution not being electrolysed can be by
Again recycle, so as to reach 8 recycled purpose of electrolyte solution, solving traditional liquid supply equipment can not be fine
Recycling electrolyte solution 8 the problem of, the left side of transverse tube 21 is fixedly connected with electrolytic cell 22, the bottom of electrolytic cell 22 and branch
The bottom of the inner side of frame 24 is fixedly connected, and workbench 23 is located at the inner chamber of electrolytic cell 22, and the bottom of the inner side of electrolytic cell 22 is fixedly connected
There is workbench 23, the bottom of electrolytic cell 22 is fixedly connected with support 24, and the top on the right side of support 24 is fixedly connected with printing head
25, the top of printing head 25 and the right side of workbench 23 are electrically connected with external power supply 26, and printer is 3D printer, air inlet
The top of pipe 14 is fixedly connected with air pump 27.
In use, start the power supply of electrolyte jet-electrodeposited method 3D printer first, by control system to pressure sensing
Device transmits signal, starts air pump 27 and inputs the air pressure of certain value, then opens extrusion valve 19, intake valve by control unit
20 and return valve 17, remaining device be in closed mode.Now air pressure is entered in A tanks 101 by air inlet pipe 14, constantly to
Air pressure is filled with A tanks 101, when atmospheric pressure is more than ambient atmosphere pressure in A tanks 101, and keeps the gas in now fluid reservoir 1
Pressure is relatively stable, and the electrolyte solution 8 in the polytetrafluoro beaker 3 at the top of corrosion-resistant inner bag base 2 can enter in extruding pipe 13, from
And be flowed into printing head 25 and be electrolysed, electroplated afterwards according to the pattern of product, the electrolyte not being electrolysed is molten
Liquid 8 then flows through return duct 12 into the inner chamber of B tanks 102 by the transverse tube 21 of the bottom right side of electrolytic cell 22, under in A tanks 101
Position liquid-level controller 4 will send signal when to detect current fluid level be limiting value, and upper liquid-level controller 5 then plays
Protect the circulatory system to use, prevent extruding pipe 13 occur the effect 1 of suck-back now terminal control system by the institute of the front opening of closing
There is device, and send a command to control unit, open the intake valve extruded in valve 19, air inlet pipe 14 of extruding pipe 13 in B tanks 102
20 and return duct 12 in return valve 17, air pressure is filled into the inner chambers of B tanks 102, atmospheric pressure reaches and set with B tanks 102
During fixed value, the electrolyte solution 8 in B tanks 102 will be pressed into extruding pipe 13, then flow into and electricity is carried out in printing head 25
Solve and electroplate, the solution not being electrolysed, the inner chamber that return duct 12 enters C tanks 103 is flowed through by transverse tube 21, similarly, when B tanks
Under 102 arrival during liquid level limiting value, after signal is sent, all devices of the front opening of closing are opened C tanks by control terminal
The return valve 17 in intake valve 20 and return duct 17 in 103 in the extrusion valve 19 of extruding pipe 13, air inlet pipe 14, air pressure is filled with
Into C tanks 103, the electrolyte solution 8 in C tanks 103 is flowed into printing head 25 and be electrolysed and electroplated, be not electrolysed
Solution will be flowed into by transverse tube 21 in A tanks 101 by return duct 12, be a cyclic process, so as to be recycled,
Such above procedure repeatedly, until required product prints successfully.In summary, the high pressure automatic cycle liquid-supplying system, passes through
Closure 9, tightening device 10, sealing ring 11, air inlet pipe 14 and intake valve 20 are used cooperatively so that whole in print procedure
Device can accomplish good seal and be capable of the pressure size of control system, and true high pressure is realized and pressure can so as to reach
With the purpose of control, solve the problems, such as that printing device causes printing effect relatively low due to not accomplishing true high pressure, pass through storage
Flow container 1, corrosion-resistant inner bag base 2, office's servo beaker 3, electromagnetic heater 6 and distilled water 7 are used cooperatively so that internal structure
Corrosion resistance strengthens and can used the method for heating water bath to heat, and increases the service life and heats so as to reach equipment
Uniform purpose, solve the problems, such as the uneven heating of electrolyte solution 8 and cause printing effect bad, by return duct 12, squeeze
Outlet pipe 13, air inlet pipe 14, return valve 17, extrusion valve 19 and intake valve 20 are used cooperatively so that inside the feed flow circulatory system
Electrolyte solution 8 is controlled effectively, and so as to reach the purpose of control electrolyte solution 8, solving traditional feed flow can not have
The problem of control electrolyte solution 8 of effect, pass through A tanks 101, B tanks 102, C tanks 103, return duct 12, transverse tube 21 and return valve 17
Be used cooperatively so that the solution not being electrolysed can be recycled again, can be circulated so as to reach electrolyte solution 8
The purpose utilized, solve the problems, such as that traditional liquid supply equipment can not recycle electrolyte solution 8 well, by corrosion-resistant interior
Courage base 2, polytetrafluoro beaker 3, the next liquid-level controller 4 and upper liquid-level controller 5 are used cooperatively so that in liquid-supplying system
Liquid can effectively be monitored, so as to reach the purpose that accurate control is carried out to electrolyte solution 8, solve liquid-supplying system
In easily there is the phenomenon of conduit suck-back and insufficient electrolyte.
Although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with
A variety of changes, modification can be carried out to these embodiments, replace without departing from the principles and spirit of the present invention by understanding
And modification, the scope of the present invention is defined by the appended.
Claims (9)
1. a kind of high pressure automatic cycle liquid-supplying system, including fluid reservoir (1), it is characterised in that:The fluid reservoir (1) includes A tanks
(101), B tanks (102) and C tanks (103), the bottom on the inside of the fluid reservoir (1) are fixedly connected with corrosion-resistant inner bag base (2),
Middle part at the top of the corrosion-resistant inner bag base (2) is fixedly connected with polytetrafluoro beaker (3), polytetrafluoro beaker (3) right side
Bottom be fixedly connected with the next liquid-level controller (4), the top on the left of the polytetrafluoro beaker (3) is fixedly connected with upper liquid
Face controller (5), the both sides of fluid reservoir (1) inwall have been fixedly connected with electromagnetic heater (6), the fluid reservoir (1)
Inner chamber is contained with distilled water (7), and the inner chamber of the polytetrafluoro beaker (3) is contained with electrolyte solution (8), the fluid reservoir (1)
Top be overlapped with closure (9), the both sides of closure (9) bottom are fixedly connected with tightening device (10), the sealing
It is equidistant through being connected with sealing ring (11) to cover the top of (9), the left side at the top of the closure (9) is through being connected with return duct
(12), the bottom of the return duct (12) through sealing ring (11) and extends to the inner chamber of polytetrafluoro beaker (3), the closure
(9) middle part at the top of through closure (9) and extends to poly- through extruding pipe (13), the bottom of the extruding pipe (13) is connected with
Bottom on the inside of tetrafluoro beaker (3), right side at the top of the closure (9) is through being connected with air inlet pipe (14), the air inlet pipe
(14) bottom is through sealing ring (11) and extends to the inner chamber of fluid reservoir (1), and the top on the right side of the fluid reservoir (1), which is fixed, to be connected
Air outlet valve (15) is connected to, side of the return duct (12) away from closure (9) is socketed with return valve (17), the extruding pipe
(13) side away from closure (9) is fixedly connected with filter (18), the extruding pipe (13) away from filter (18) one
Side is socketed with extrusion valve (19), and intake valve (20), the top of the return duct (12) are socketed with the outside of the air inlet pipe (14)
Transverse tube (21) is fixedly connected with, electrolytic cell (22), electrolytic cell (22) inner side are fixedly connected with the left of the transverse tube (21)
Bottom be fixedly connected with workbench (23), the bottom of the electrolytic cell (22) is fixedly connected with support (24), the support
(24) top on the right side of is fixedly connected with printing head (25), and air pump (27) is fixedly connected with the top of the air inlet pipe (14).
A kind of 2. high pressure automatic cycle liquid-supplying system according to claim 1, it is characterised in that:The air outlet valve (15)
Top, which is run through, is connected with escape pipe (16), and the top on the right side of the fluid reservoir (1), which is run through, is connected with sealing ring (11).
A kind of 3. high pressure automatic cycle liquid-supplying system according to claim 1, it is characterised in that:The printing head (25)
The right side of top and workbench (23) be electrically connected with external power supply (26), the printer is 3D printer.
A kind of 4. high pressure automatic cycle liquid-supplying system according to claim 1, it is characterised in that:The fluid reservoir (1)
Quantity is three, and three described fluid reservoirs (1) etc. are big.
A kind of 5. high pressure automatic cycle liquid-supplying system according to claim 1, it is characterised in that:The escape pipe (16)
Right side is through sealing ring (11) and extends to the inner chamber of fluid reservoir (1).
A kind of 6. high pressure automatic cycle liquid-supplying system according to claim 1, it is characterised in that:The electrolytic cell (22)
Bottom is fixedly connected with the bottom on the inside of support (24), and the workbench (23) is located at the inner chamber of electrolytic cell (22).
A kind of 7. high pressure automatic cycle liquid-supplying system according to claim 1, it is characterised in that:The polytetrafluoro beaker
(3) it is located at the inner chamber of fluid reservoir (1), the liquid level of the distilled water (7) is less than the height of polytetrafluoro beaker (3).
A kind of 8. high pressure automatic cycle liquid-supplying system according to claim 1, it is characterised in that:The closure (9) is
Circular lid, the diameter of the closure (9) are more than the diameter on the outside of fluid reservoir (1).
A kind of 9. high pressure automatic cycle liquid-supplying system according to claim 1, it is characterised in that:The extruding pipe (13)
Top is fixedly connected with woven hose (28), and the left side of the woven hose (28) on the right side of printing head (25) with being fixedly connected.
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Cited By (5)
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CN110376212A (en) * | 2019-08-20 | 2019-10-25 | 华能国际电力股份有限公司 | A kind of online fluorescence in situ Liquid penetrant testing device of gas turbine critical component |
CN111041529A (en) * | 2019-12-24 | 2020-04-21 | 厦门理工学院 | Electro-deposition 3D printing head and device |
CN112522766A (en) * | 2020-11-11 | 2021-03-19 | 中山大学 | Suction-combined electrochemical micro-additive preparation method and device |
CN114875470A (en) * | 2022-05-24 | 2022-08-09 | 深圳大学 | Automatic circulating electrolyte concentration compensation device and method |
WO2023116337A1 (en) * | 2021-12-21 | 2023-06-29 | 盛美半导体设备(上海)股份有限公司 | Liquid storage device and electroplating apparatus |
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