CN209318791U - Remove the device and equipment of increasing material manufacturing porous metals bore area residual metal powder - Google Patents
Remove the device and equipment of increasing material manufacturing porous metals bore area residual metal powder Download PDFInfo
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- CN209318791U CN209318791U CN201822165807.7U CN201822165807U CN209318791U CN 209318791 U CN209318791 U CN 209318791U CN 201822165807 U CN201822165807 U CN 201822165807U CN 209318791 U CN209318791 U CN 209318791U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
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Abstract
The utility model provides a kind of device and equipment for removing increasing material manufacturing porous metals bore area residual metal powder, belongs to porous metals processing equipment technical field.The device includes holding utensil and action system, holds utensil for abundant mesoporous metal.Action system includes energy converter, amplitude transformer, ultrasonic controller, and energy converter is connect with amplitude transformer and ultrasonic controller respectively, and one end of the separate energy converter of amplitude transformer is held in utensil for being inserted into.The apparatus structure is simple, and it is convenient to operate.The equipment for removing increasing material manufacturing porous metals bore area residual metal powder includes porous metals and above-mentioned apparatus, can effectively remove the residual metal powder of porous metals bore area.
Description
Technical field
The utility model belongs to porous metals processing technology field, and in particular to a kind of removal increasing material manufacturing porous metals
The device and equipment of bore area residual metal powder.
Background technique
Complex porous structure design and manufacture integral forming may be implemented in laser (or electron beam) increases material manufacturing technology, can
Method is in the quick manufacture of personalized implant, filtering material, heat sink material, damping energy-absorbing material, in biologic medical, metallurgyization
The fields such as work, new energy, environmental protection, aerospace, electronic device have important method prospect.
Laser (or electron beam) increasing material manufacturing is that metal powder melts and one under the action of superlaser (or electron beam)
Be layering realization, due to technological parameter etc., laser (or electron beam) increasing material manufacturing porous metals surface especially
Often remaining does not melt metal powder, traditional remnants that bore area is difficult to remove such as sandblasting, abrasive Flow largely to inner surface
Powder influences the military service effect of increasing material manufacturing porous metal material.
Utility model content
One of the purpose of this utility model is to provide a kind of removal increasing material manufacturing porous metals bore area residual metal
The device of powder, the apparatus structure is simple, and it is convenient to operate.
The second of the utility model is designed to provide a kind of removal increasing material manufacturing porous metals bore area residual metal
The device of powder, the device can effectively remove the residual metal powder of porous metals bore area.
The utility model solves its technical problem and adopts the following technical solutions to realize:
Present applicant proposes a kind of device for removing increasing material manufacturing porous metals bore area residual metal powder, the devices
Including holding utensil and action system, utensil is held for holding the porous metals to be processed after increasing material manufacturing.
Action system includes energy converter, amplitude transformer, ultrasonic controller, energy converter respectively with amplitude transformer and ultrasonic controller
Connection and energy converter are used to convert electrical energy into ultrasonic wave, and one end of the separate energy converter of amplitude transformer holds utensil for being inserted into
In.
Further, action system further includes turntable, and turntable holds utensil for placing.
Further, action system further includes rotor, and rotor is held in utensil for being placed in.
Further, action system further includes polished ball, and polished ball is held in utensil for being placed in.
Further, the diameter of polished ball is 30-80 μm.
Further, the diameter of polished ball is 40-60 μm.
Further, it holds and is also equipped with acid solution in utensil.
The application also proposed a kind of equipment for removing increasing material manufacturing porous metals bore area residual metal powder, this sets
The standby device including porous metals and above-mentioned removal increasing material manufacturing porous metals bore area residual metal powder, porous metals are used
It is held in utensil in being placed in.
Further, the aperture of porous metals is not less than 100 μm.
Further, when holding utensil and being provided with acid solution, porous gold that acid solution will be held in utensil always
Belong to submergence.
The application removes the device of increasing material manufacturing porous metals bore area residual metal powder and the beneficial effect of equipment
Include:
The apparatus structure of removal increasing material manufacturing porous metals bore area residual metal powder provided by the present application is simple, behaviour
It is convenient to make.The equipment of the removal increasing material manufacturing porous metals bore area residual metal powder of offer can effectively remove porous gold
Belong to the residual metal powder of bore area.
Detailed description of the invention
It, below will be to use required in embodiment in order to illustrate more clearly of the technical solution of the utility model embodiment
Attached drawing be briefly described, it should be understood that the following drawings illustrates only some embodiments of the utility model, therefore should not be by
Regard the restriction to range as, for those of ordinary skill in the art, without creative efforts, may be used also
To obtain other relevant attached drawings according to these attached drawings.
Fig. 1 is setting for the removal increasing material manufacturing porous metals bore area residual metal powder that the embodiment of the present application 1 provides
Standby structural schematic diagram;
Fig. 2 is setting for the removal increasing material manufacturing porous metals bore area residual metal powder that the embodiment of the present application 2 provides
Standby structural schematic diagram;
Fig. 3 is the removal increasing material manufacturing porous metals bore area residual metal powder that the embodiment of the present application 3 and 4 provides
The structural schematic diagram of equipment;
Fig. 4 is the removal increasing material manufacturing porous metals bore area residual metal powder that the embodiment of the present application 5 to 8 provides
The structural schematic diagram of equipment.
Icon: the device of 100- removal increasing material manufacturing porous metals bore area residual metal powder;10- holds utensil;
20- action system;21- energy converter;22- amplitude transformer;23- ultrasonic controller;24- rotor;25- turntable;26- polished ball;27- acid
Property solution;30- porous metals.
Specific embodiment
It, below will be to the utility model to keep the objectives, technical solutions, and advantages of the embodiments of the present invention clearer
Technical solution in embodiment is clearly and completely described.The person that is not specified actual conditions in embodiment, according to normal conditions or
The condition that manufacturer suggests carries out.Reagents or instruments used without specified manufacturer is that can be obtained by commercially available purchase
Conventional products.
Below to it is provided by the present application removal increasing material manufacturing porous metals bore area residual metal powder device and set
It is standby to be specifically described.
The device of removal increasing material manufacturing porous metals bore area residual metal powder provided by the present application includes holder
Tool and action system.Utensil is held for holding the porous metals to be processed after increasing material manufacturing.
Action system includes energy converter, amplitude transformer, ultrasonic controller, energy converter respectively with amplitude transformer and ultrasonic controller
Connection and energy converter are used to convert electrical energy into ultrasonic wave, and one end of the separate energy converter of amplitude transformer holds utensil for being inserted into
In.
Action system can also include turntable, and turntable holds utensil for placing.Further, action system can also wrap
Rotor is included, rotor is held in utensil for being placed in.
Optionally, holding utensil can be glass beaker, or the vessel of plastic ware or other materials.
In the application, the first effect of action system is mainly used for providing ultrasonic wave, specifically, ultrasonic controller and transducing
Device electrical connection, and ultrasonic controller includes the ultrasound parameters such as ultrasonic time, ultrasonic power and pulse mode for adjusting.By
The electric energy of ultrasonic controller transmission is converted to ultrasonic wave at energy converter, then will be ultrasonic by the amplitude transformer connecting with energy converter
Incoming the holding in utensil to generate Cavitation effect and mechanical oscillation in holding utensil equipped with liquid of wave, causes bubble constantly to rush
The inner surface of porous metals sample is hit to constantly remove the residual powder of porous metals sample surfaces.
Optionally, aforesaid liquid can be water, preferably deionized water.
Second effect of action system is mainly used for reinforcing holding the phase interaction between the substance and porous metals in utensil
With.Optionally, turntable and rotor can be magnetic material.Specifically, it holds utensil to be put on turntable, rotor, which is put in, to be held
In utensil.Utensil is held to change the flow velocity for holding liquid in utensil by rotation, flows liquid;Rotor is turning simultaneously
It rotates under the drive of platform holding in utensil, further changes the flow regime of liquid, in enhancing liquid and metal porous sample
Percussion between surface improves the removal rate of residual powder.
Further, above-mentioned action system further includes polished ball, and polished ball is held in utensil for being placed in.Polished ball exists
Under conditions of turntable rotation, hit with in the metal porous sample held in utensil, more reinforced metal porous sample
The removal effect of inner surface residual powder.
Optionally, above-mentioned polished ball can be with, but is not limited only to include silicon nitride polishing ball and silicon carbide polished ball etc..
In some embodiments, the diameter of polished ball can be with 30-80 μm, such as 30 μm, 40 μm, 50 μm, 60 μm, 70 μm or 80 μm,
It may be 35 μm, 45 μm, 55 μm, 65 μm or 75 μm etc., can also be any diameter value in 30-80 μ m.Another
In a little embodiments, the diameter of polished ball is 40-60 μm, and the polished ball under the size is to metal porous sample inner surface remnants powder
The removal effect at end is more preferably.
Preferably, the hardness of polished ball is not less than 25GPa in the application, so that polished ball hardness with higher, is improved
With the impact effects between metal porous sample.
Further, above-mentioned hold may be provided with acid solution in utensil.Acid solution can with but be not limited only to include
Hydrochloric acid, sulfuric acid, nitric acid or hydrofluoric acid etc..
In some embodiments, the concentration of acid solution is no more than 0.4mol/L, makes to avoid to metal porous sample
At adverse effect, phenomena such as such as corroding or be acidified.
In some preferred embodiments, metal porous sample is totally submerged by acid solution.It is some more preferably
In embodiment, the temperature of acid solution is 60-95 DEG C, such as 60 DEG C, 65 DEG C, 70 DEG C, 75 DEG C, 80 DEG C, 85 DEG C, 90 DEG C or 95 DEG C
Deng.It is held in utensil it is worth noting that acid solution can be to be fitted into 60-95 DEG C of temperature, is also possible to that Sheng is first added
60-95 DEG C is again heated to after putting utensil.
By the way that acid solution is added in holding utensil, the combination of residual powder and sample can be weakened, dissolves and accelerates
Remove residual powder.Acid solution is heated, can promote its rate for dissolving residual powder, is shortened needed for removal residual powder
Time.
In addition, setting present invention also provides a kind of removal increasing material manufacturing porous metals bore area residual metal powder
Standby, which includes the device of porous sample and above-mentioned removal increasing material manufacturing porous metals bore area residual metal powder, more
Mesoporous metal is held in utensil for being placed in.
Above-mentioned porous metals are through increasing material manufacturing, such as the manufacture of the methods of precinct laser fusion or electron beam precinct laser fusion
?.Optionally, the material of porous metals can be with, but is not limited only to include in titanium alloy, aluminium alloy, stainless steel, tungsten and tantalum
Any one.
In some embodiments, the aperture of porous metals is not less than 100 μm.
Acid solution always submerges the porous metals held in utensil, to extend effect of the acid solution to porous metals
Time, avoid impact and effect of impact under porous metals acid solution of emerging reduce acid solution the dissolution of residual powder imitated
Fruit.
It is worth noting that the method that increasing material manufacturing porous metals bore area residual metal powder is removed in the application,
It may comprise steps of:
Using the device of above-mentioned removal increasing material manufacturing porous metals bore area residual metal powder, ultrasonic controller is adjusted
And ultrasonic wave is converted electrical energy by energy converter, ultrasonic wave is then passed to holding in utensil equipped with liquid through amplitude transformer again
So that liquid generates bubble and impacts the inner surface of porous metals.
When action system includes turntable and rotor, opening turntable rotates rotor in holding utensil and accelerates liquid
Flowing, to enhance the effect between bubble and porous metals.The related content of each step can also together referring to foregoing teachings,
This is not repeated them here.
In some embodiments, the ultrasonic power of ultrasonic wave can be 200-2000W, as 200W, 500W, 800W,
1000W, 1200W, 1500W, 1800W or 2000W etc. can also be any ultrasonic power value within the scope of 200-2000W.
In some embodiments, ultrasonic time can be 0.5-10h, such as 0.5h, 1h, 2h, 5h, 8h or 10h etc.,
It can be any time value within the scope of 0.5-10h.
In some embodiments, pulse mode (namely ratio of working time and time out) can be (1-5):
(1-5).Namely each ultrasonic period includes work phase and suspending period, the working time for the phase that works can be 1-5s, suspending period
Time out may be 1-5s, and specifically, working time and time out can be freely combined within the scope of 1-5s.It is worth explanation
, ultrasonic time involved in the application is that 0.5-10h refers to ultrasonic time total in entire ultrasonic procedure (all ultrasound periods
The sum of middle ultrasound works time).
When the turret rotates, can with 50-200r/min, as 50r/min, 80r/min, 100r/min, 120r/min,
The revolving speed of 150r/min, 180r/min or 200r/min rotate.
It is corresponding with above-mentioned apparatus, further, method further include: polished ball is added in Yu Shengfang utensil and makes polished ball
Collision holds the porous metals in utensil under the drive of turntable rotation.
Further, method may also include that heating acid solution.It is worth noting that heating can be acid molten
Liquid loading is heated before holding utensil, is also possible to be heated after acid solution is packed into and holds utensil.
It holds, the method for the removal increasing material manufacturing porous metals bore area residual metal powder of the application mainly passes through three
Broad aspect is removed powder: first is that the Cavitation effect and mechanical oscillation that are generated by ultrasonic wave impact metal porous sample into
Row removal;It is removed second is that hit with metal porous sample by polished ball;Third is that by acid solution corrosion and it is molten
Solution residual powder is removed.It is worth noting that being faced by any of the above-described aspect or any two aspect or simultaneously tripartite residual
Remaining powder is removed within the scope of protection of this application.
Embodiment 1
Fig. 1 is please referred to, the present embodiment provides a kind of removal increasing material manufacturing porous metals bore area residual metal powder
Equipment comprising the device 100 of porous metals 30 and removal increasing material manufacturing porous metals bore area residual metal powder.The dress
It sets including holding utensil 10 and action system 20.Holding utensil 10 is glass beaker, to be processed porous after increasing material manufacturing
Metal 30 is put in glass beaker.
Action system 20 include energy converter 21, amplitude transformer 22, ultrasonic controller 23, energy converter 21 respectively with amplitude transformer 22 with
And the connection of ultrasonic controller 23 and energy converter 21 be for converting electrical energy into ultrasonic wave, the one of the separate energy converter 21 of amplitude transformer 22
End is for being inserted into glass beaker.
Embodiment 2
Referring to figure 2., provided in this embodiment to remove setting for increasing material manufacturing porous metals bore area residual metal powder
For on the basis of embodiment 1, action system 20 further includes rotor 24 and turntable 25, and glass beaker is put on turntable 25, rotor
24 are placed in and hold in utensil 10.
Embodiment 3
Referring to figure 3., the present embodiment provides a kind of removal increasing material manufacturing porous metals bore area residual metal powder
Equipment comprising the device 100 of porous metals 30 and removal increasing material manufacturing porous metals bore area residual metal powder.The dress
It sets including holding utensil 10 and action system 20.The cylindrical type bottle that utensil 10 is plastics is held, it is to be processed after increasing material manufacturing
Porous metals 30 be put in cylindrical type bottle.Action system 20 includes energy converter 21, amplitude transformer 22, ultrasonic controller 23, transducing
Device 21 is connect with amplitude transformer 22 and ultrasonic controller 23 respectively and energy converter 21 is for converting electrical energy into ultrasonic wave, amplitude transformer
One end of 22 separate energy converter 21 is for being inserted into cylindrical type bottle.
Action system 20 further includes rotor 24, turntable 25 and silicon nitride polishing ball 26, and cylindrical type bottle is placed on turntable 25,
Rotor 24 and silicon nitride polishing ball 26, which are placed in, to be held in utensil 10.
Embodiment 4
Referring to figure 3., the present embodiment provides a kind of removal increasing material manufacturing porous metals bore area residual metal powder
Equipment comprising the device 100 of porous metals 30 and removal increasing material manufacturing porous metals bore area residual metal powder.The dress
It sets including holding utensil 10 and action system 20.Holding utensil 10 is stainless steel barrel, to be processed porous after increasing material manufacturing
Metal 30 is put in stainless steel barrel.
Action system 20 include energy converter 21, amplitude transformer 22, ultrasonic controller 23, energy converter 21 respectively with amplitude transformer 22 with
And the connection of ultrasonic controller 23 and energy converter 21 be for converting electrical energy into ultrasonic wave, the one of the separate energy converter 21 of amplitude transformer 22
End is for being inserted into stainless steel barrel.
Action system 20 further includes rotor 24, turntable 25 and silicon carbide polished ball 26, and stainless steel barrel is placed on turntable 25,
Rotor 24 and silicon carbide polished ball 26 are placed in stainless steel barrel.
Embodiment 5
Referring to figure 4., the present embodiment provides a kind of removal increasing material manufacturing porous metals bore area residual metal powder
Equipment comprising the device 100 of porous metals 30 and removal increasing material manufacturing porous metals bore area residual metal powder.The dress
It sets including holding utensil 10 and action system 20.Holding utensil 10 is glass beaker, to be processed porous after increasing material manufacturing
Metal 30 is put in glass beaker.
Action system 20 include energy converter 21, amplitude transformer 22, ultrasonic controller 23, energy converter 21 respectively with amplitude transformer 22 with
And the connection of ultrasonic controller 23 and energy converter 21 be for converting electrical energy into ultrasonic wave, the one of the separate energy converter 21 of amplitude transformer 22
End is for being inserted into glass beaker.
Action system 20 further includes rotor 24, turntable 25 and silicon nitride polishing ball 26, and glass beaker is placed on turntable 25,
Rotor 24 and silicon nitride polishing ball 26 are placed in glass beaker, and are also equipped in the glass beaker as acid solution 27
Concentration be 0.4mol/L dilute hydrochloric acid and portions of de-ionized water.
Embodiment 6
The present embodiment and the difference of embodiment 5 are: the concentration that temperature is 60 DEG C is also equipped in glass beaker is
The dilute sulfuric acid of 0.35mol/L.
Embodiment 7
The present embodiment and the difference of embodiment 5 are: it is 0.3mol/ that the concentration that temperature is 80 DEG C is also equipped in glass beaker
The dust technology of L.
Embodiment 8
The present embodiment and the difference of embodiment 5 are: the concentration that temperature is 95 DEG C is also equipped in glass beaker is
The diluted hydrofluoric acid of 0.25mol/L.
Embodiment 9
The present embodiment provides a kind of methods for removing increasing material manufacturing porous metals bore area residual metal powder: using this
The device for applying for the removal increasing material manufacturing porous metals bore area residual metal powder that embodiment 6 provides, will be through choosing laser
The porous titanium alloy that aperture after fusing is 100 μm is put in glass beaker, and adjusting ultrasonic controller simultaneously will be electric by energy converter
It can be converted into ultrasonic wave, it then again will be in the incoming glass beaker equipped with deionized water of ultrasonic wave through amplitude transformer.Above-mentioned ultrasound mistake
Ultrasonic power is 200W, ultrasonic time 10h, pulse mode 3:1 in journey.
Silicon nitride polishing ball is added in glass beaker and is packed into the dilute sulfuric acid that concentration is 0.35mol/L, opening turntable makes
It is 100r/min rotation with revolving speed, and rotor is driven to rotate in glass beaker, and liquid to the temperature heated in beaker is 60
℃.The diameter of above-mentioned silicon nitride polishing ball is 50 μm, hardness 30GPa.
According to the above method, the removal rate of titanium alloy bore area residual metal powder is 95%.
Embodiment 10
The present embodiment provides a kind of methods for removing increasing material manufacturing porous metals bore area residual metal powder: using this
The device for applying for the removal increasing material manufacturing porous metals bore area residual metal powder that embodiment 7 provides, will select through electron beam
The porous stainless steel that aperture after the fusing of area's laser is 150 μm is put in glass beaker, is adjusted ultrasonic controller and is passed through transducing
Device converts electrical energy into ultrasonic wave, then again will be in the incoming glass beaker equipped with deionized water of ultrasonic wave through amplitude transformer.It is above-mentioned
Ultrasonic power is 1000W, ultrasonic time 5h, pulse mode 1:2 in ultrasonic procedure.
Silicon nitride polishing ball is added in glass beaker and is packed into the dust technology that concentration is 0.3mol/L, opening turntable makes it
It is 50r/min rotation with revolving speed, and rotor is driven to rotate in glass beaker, liquid to the temperature heated in beaker is 80 DEG C.
The diameter of above-mentioned silicon nitride polishing ball is 30 μm, hardness 25GPa.
According to the above method, the removal rate of porous stainless steel bore area residual metal powder is 92%.
Embodiment 11
The present embodiment provides a kind of methods for removing increasing material manufacturing porous metals bore area residual metal powder: using this
The device for applying for the removal increasing material manufacturing porous metals bore area residual metal powder that embodiment 5 provides, will select through electron beam
The porous tantalum that aperture after the fusing of area's laser is 120 μm is put in glass beaker, and adjusting ultrasonic controller simultaneously will by energy converter
Electric energy is converted into ultrasonic wave, then again will be in the incoming glass beaker equipped with deionized water of ultrasonic wave through amplitude transformer.Above-mentioned ultrasound
Ultrasonic power is 2000W, ultrasonic time 0.5h, pulse mode 3:3 in the process.
Silicon nitride polishing ball is added in glass beaker and is packed into the dilute hydrochloric acid that concentration is 0.4mol/L, opening turntable makes it
It is 200r/min rotation with revolving speed, and rotor is driven to rotate in glass beaker.The diameter of above-mentioned silicon nitride polishing ball is 80 μm,
Hardness is 32GPa.
According to the above method, the removal rate of porous tantalum bore area residual metal powder is 85%.
Embodiment 12
The present embodiment and the difference of embodiment 11 are: silicon nitride polishing ball is not added in glass beaker.
Embodiment 13
The present embodiment and the difference of embodiment 11 are: dilute hydrochloric acid is not added in glass beaker.
Embodiment 14
The present embodiment and the difference of embodiment 11 are: carrying out ultrasonic place in the process of removal residual metal powder
Reason.
Test example
By taking embodiment 9 as an example, control group 1-3 is set, wherein control group 1 and the difference of embodiment 9 are: residual removing
It is only ultrasonically treated during remaining metal powder, no polished ball and acid solution effect;The area of control group 2 and embodiment 9
It is not: is only acted on by polished ball during removing residual metal powder, no ultrasonic treatment and acid solution processing;It is right
It is according to group 3 and the difference of embodiment 9: is only acted on by acid solution during removing residual metal powder, no ultrasound
Processing and polished ball processing.Above-mentioned 4 groups of methods are compared to the removal rate of residual metal powder, the results are shown in Table 1.
1 removal rate of table
Embodiment 9 | Control group 1 | Control group 2 | Control group 3 | |
Removal rate (%) | 95 | 40 | 20 | 25 |
As can be seen from Table 1, the Cavitation effect generated by ultrasonic wave and mechanical oscillation that application scheme provides impact
Metal porous sample carries out hitting and corroding by acid solution and dissolve remaining powder by polished ball and metal porous sample
Last tripartite has synergistic function in face of removal increasing material manufacturing porous metals bore area residual metal powder.
To sum up, the apparatus structure letter of removal increasing material manufacturing porous metals bore area residual metal powder provided by the present application
Single, it is convenient to operate.The equipment of the removal increasing material manufacturing porous metals bore area residual metal powder of offer can effectively remove
The residual metal powder of porous metals bore area.
The above is only the preferred embodiments of the utility model, are not intended to limit the utility model, for this field
Technical staff for, various modifications and changes may be made to the present invention.Within the spirit and principle of the utility model,
Any modification, equivalent replacement, improvement and so on should be included within the scope of protection of this utility model.
Claims (10)
1. a kind of device for removing increasing material manufacturing porous metals bore area residual metal powder, which is characterized in that described device
Including holding utensil and action system, the utensil that holds is for holding the porous metals to be processed after increasing material manufacturing;
The action system includes energy converter, amplitude transformer and ultrasonic controller, the energy converter respectively with the amplitude transformer and
The ultrasonic controller connection and the energy converter are used to convert electrical energy into ultrasonic wave, the separate transducing of the amplitude transformer
One end of device is for being inserted into described hold in utensil.
2. the device of removal increasing material manufacturing porous metals bore area residual metal powder according to claim 1, special
Sign is that the action system further includes turntable, and the turntable described holds utensil for placing.
3. the device of removal increasing material manufacturing porous metals bore area residual metal powder according to claim 2, special
Sign is that the action system further includes rotor, and the rotor is for being placed in described hold in utensil.
4. the dress of removal increasing material manufacturing porous metals bore area residual metal powder according to claim 1-3
It sets, which is characterized in that the action system further includes polished ball, and the polished ball is for being placed in described hold in utensil.
5. the device of removal increasing material manufacturing porous metals bore area residual metal powder according to claim 4, special
Sign is that the diameter of the polished ball is 30-80 μm.
6. the device of removal increasing material manufacturing porous metals bore area residual metal powder according to claim 5, special
Sign is that the diameter of the polished ball is 40-60 μm.
7. the device of removal increasing material manufacturing porous metals bore area residual metal powder according to claim 4, special
Sign is that described hold is also equipped with acid solution in utensil.
8. a kind of equipment for removing increasing material manufacturing porous metals bore area residual metal powder, which is characterized in that the equipment
Including porous metals and such as the described in any item removal increasing material manufacturing porous metals bore area residual metal powder of claim 1-7
The device at end, the porous metals are for being placed in described hold in utensil.
9. equipment according to claim 8, which is characterized in that the aperture of the porous metals is not less than 100 μm.
10. equipment according to claim 8, which is characterized in that when it is described hold utensil and be provided with acid solution when, it is described
Acid solution always submerges the porous metals held in utensil.
Priority Applications (1)
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CN201822165807.7U CN209318791U (en) | 2018-12-20 | 2018-12-20 | Remove the device and equipment of increasing material manufacturing porous metals bore area residual metal powder |
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CN201822165807.7U CN209318791U (en) | 2018-12-20 | 2018-12-20 | Remove the device and equipment of increasing material manufacturing porous metals bore area residual metal powder |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109454237A (en) * | 2018-12-20 | 2019-03-12 | 广东省新材料研究所 | Remove the device and method of increasing material manufacturing porous metals bore area residual metal powder |
CN112792342A (en) * | 2020-12-28 | 2021-05-14 | 董浩 | Get rid of metal powder's of medical implant of 3D device |
-
2018
- 2018-12-20 CN CN201822165807.7U patent/CN209318791U/en active Active
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109454237A (en) * | 2018-12-20 | 2019-03-12 | 广东省新材料研究所 | Remove the device and method of increasing material manufacturing porous metals bore area residual metal powder |
CN109454237B (en) * | 2018-12-20 | 2023-09-26 | 广东省新材料研究所 | Device and method for removing residual metal powder on surface of inner hole of porous metal manufactured by additive |
CN112792342A (en) * | 2020-12-28 | 2021-05-14 | 董浩 | Get rid of metal powder's of medical implant of 3D device |
CN112792342B (en) * | 2020-12-28 | 2022-10-04 | 威海云之卫智能科技有限公司 | Get rid of metal powder's of medical implant of 3D device |
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