CN205474049U - A device for aluminum bottle internal and external surface pottery is handled - Google Patents

A device for aluminum bottle internal and external surface pottery is handled Download PDF

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Publication number
CN205474049U
CN205474049U CN201620233753.1U CN201620233753U CN205474049U CN 205474049 U CN205474049 U CN 205474049U CN 201620233753 U CN201620233753 U CN 201620233753U CN 205474049 U CN205474049 U CN 205474049U
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CN
China
Prior art keywords
aluminum bottle
stainless steel
nozzle
rustless steel
pottery
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Expired - Fee Related
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CN201620233753.1U
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Chinese (zh)
Inventor
叶仁锋
叶友谦
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Dongguan Henghe Dynamo Electric Technology Co ltd
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Dongguan Henghe Dynamo Electric Technology Co ltd
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Priority to CN201620233753.1U priority Critical patent/CN205474049U/en
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Publication of CN205474049U publication Critical patent/CN205474049U/en
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Abstract

The utility model discloses a device for aluminum bottle internal and external surface pottery is handled, include: aluminum bottle, production high frequency and high voltage's power, stainless steel frame, stainless steel electrolysis cell body, stainless steel liquid storage pot, nozzle pipe, stainless steel nozzle, the negative pole of power connects the stainless steel liquid storage pot with on the stainless steel electrolysis cell body, the stainless steel liquid storage pot is connected the nozzle pipe, and pass through nozzle pipe connection the stainless steel nozzle, aluminum bottle places stainless steel frame is last, the positive pole of power is connected stainless steel frame is last, the stainless steel liquid storage pot embeds there is electrolyte, the stainless steel nozzle stretches into aluminum bottle's internal surface, the switch -on the power, it is right aluminum bottle's internal surface carries out micro arc oxidation treatment. The utility model relates to a can reduce cost, interior surface treatment is even, a device for aluminum bottle internal and external surface pottery is handled that meets the need of market.

Description

The device processed for Aluminum Bottle surfaces externally and internally pottery
Technical field
This utility model relates to plasma micro-arc oxidation field of surface treatment, particularly relate to a kind of can reduce cost, inner surface treatment uniformly, meet the device processed for Aluminum Bottle surfaces externally and internally pottery of the market demand.
Background technology
Differential arc oxidation is also known as plasma oxidation, it is to be combined by electrolyte and corresponding electrical quantity, arc discharge is relied on to produce TRANSIENT HIGH TEMPERATURE high pressure effect at non-ferrous metal such as aluminum, magnesium, titanium and alloy surface thereof, ceramic layer is grown at matrix surface, ceramic on metal film performance is excellent, there is corrosion-resistant, wear-resisting, environmental protection, there is biological activity and hardness advantages of higher, be widely used in the fields such as Aero-Space, machinery, weaving and medical apparatus and instruments.
The packaging of the industries such as Aluminum Bottle cosmetics to be used for, food, essential oil fragrances, industrial chemicals, aerosol pressure type liquid contents and medicine and holding.The most domestic surface to Aluminum Bottle processes and generally uses anodic oxidation or the mode such as electrophoresis, spraying.And these modes all also exist, and surface-treated layer abrasion hardness is low, not acid and alkali-resistance or remain the not environmentally shortcoming such as composition.
Using differential arc oxidation can improve disadvantages described above, but Aluminum Bottle uses differential arc oxidation to exist that operating cost high (surface area), Aluminum Bottle inner surface treatment be uneven, the bad problem such as fixing of fixture, therefore this technology cannot spread on civilian Aluminum Bottle.
Therefore, need badly a kind of can reduce cost, inner surface treatment uniformly, meet the device processed for Aluminum Bottle surfaces externally and internally pottery of the market demand.
Utility model content
In view of above-mentioned the deficiencies in the prior art, the purpose of this utility model is to provide a kind of device processed for Aluminum Bottle surfaces externally and internally pottery, aim to solve the problem that existing Aluminum Bottle surface processes and can not meet the market demand, and use the problem that differential arc oxidation cost is high, inner surface treatment is uneven.
To achieve these goals, the technical scheme that this utility model provides is: disclose a kind of device processed for Aluminum Bottle surfaces externally and internally pottery, including: aluminum bottle, produce the power supply of high-frequency and high-voltage, stainless steel frame, stainless steel electrolytic cell body, rustless steel fluid reservoir, nozzle duct, rustless steel nozzle, the negative electrode of described power supply is connected on described rustless steel fluid reservoir and described stainless steel electrolytic cell body, described rustless steel fluid reservoir connects described nozzle duct, and connect described rustless steel nozzle by described nozzle duct, described Aluminum Bottle is placed on described stainless steel frame, the anode of described power supply is connected on described stainless steel frame, described rustless steel fluid reservoir is built-in with electrolyte, described rustless steel nozzle stretches into the inner surface of described Aluminum Bottle, connect described power supply, the inner surface of described Aluminum Bottle is carried out differential arc oxidation process.
Also include that jack up unit, described jack up unit are connected to, above described rustless steel fluid reservoir, described rustless steel fluid reservoir, nozzle duct and rustless steel nozzle are mentioned or declined.
Also including circulating pump, the lower end of described stainless steel electrolytic cell body is provided with the outlet of electrolyte, and described outlet connects described fluid reservoir by described circulating pump.
Described circulating pump is also associated with chiller, and electrolyte connects described rustless steel fluid reservoir through described chiller.
The bottom of described stainless steel electrolytic cell body is provided with fixed station, and described stainless steel frame is located on described fixed station.
Described rustless steel nozzle is laid with nozzle bore equably, and described nozzle bore jet electrolytic liquid also carries out operation to described Aluminum Bottle.
Coating plastic drainage screen on described rustless steel nozzle.
Having 4 buckles, described Aluminum Bottle cervical region to be stuck in rustless steel card and buckle on described stainless steel frame, described stainless steel frame can install 4 described Aluminum Bottles simultaneously.
Equipped with pressure-regulating valve on described rustless steel fluid reservoir, the pressure of nozzle is adjusted by described pressure-regulating valve.
Described fixed station is positioned at the underface of described jack up unit, and described rustless steel nozzle enters at described Aluminum Bottle center position.
Compared with prior art, owing to this utility model can obtain the Al-base ceramic film layer of white at Aluminum Bottle surfaces externally and internally, the advantages such as corrosion-resistant, wear-resisting, nontoxic, the heavy metal component of the Al-base ceramic film layer formed, insulation, surface has ceramic texture, both strengthened general surface plate and processed specific functional, improve again the class of product, be therefore greatly improved the surcharge of Aluminum Bottle and actually used value.
By description below and combine accompanying drawing, this utility model will become more fully apparent, and these accompanying drawings are used for explaining embodiment of the present utility model.
Accompanying drawing explanation
Fig. 1 show this utility model schematic diagram for one embodiment of device that Aluminum Bottle surfaces externally and internally pottery processes.
Detailed description of the invention
With reference now to accompanying drawing, describing embodiment of the present utility model, element numbers similar in accompanying drawing represents similar element.Described above:
In one embodiment, as it is shown in figure 1, described rustless steel nozzle 6 is cylindrical, diameter and length are increased or decreased according to Aluminum Bottle 7 size to be processed.Be provided with a lot of equally distributed nozzle bore (not showing on figure) on described rustless steel nozzle 6, nozzle bore can with jet electrolytic liquid and described Aluminum Bottle 7 is carried out discharge operation.Simultaneously for preventing the described Aluminum Bottle 7 connected with anode from contacting, described rustless steel nozzle 6 can wrap up plastic filtering net (not marking in figure).
In one embodiment, the negative electrode of the power supply 1 of described generation high-frequency and high-voltage is connected on rustless steel fluid reservoir 2 and stainless steel electrolytic cell body 11, rustless steel fluid reservoir 2 connects nozzle duct 3 and rustless steel nozzle 6, the anode of power supply 1 is connected to place on the stainless steel frame 4 of Aluminum Bottle 7, stainless steel frame 4 is fixed on the fixed station 5 of insulation, and rustless steel fluid reservoir 2 upper end and jack up unit 10 link together.
In one embodiment, described stainless steel frame 4 having 4 rustless steel buckles (not showing on figure), Aluminum Bottle 7 cervical region can be stuck in rustless steel card and buckle, described stainless steel frame 4 can be installed 4 Aluminum Bottles 7 simultaneously and carry out safeguarding oxidation operation.
In one embodiment, equipped with pressure-regulating valve on described rustless steel fluid reservoir 2, the expulsion pressure of rustless steel nozzle 6 can be adjusted.
In one embodiment, described electrolyte passes through the rustless steel fluid reservoir 2 nozzle bore circulation ejection from described rustless steel nozzle 6, the outlet being positioned at stainless steel electrolytic cell body 11 lower end enter circulating pump 8 and chiller 9 enters next circulation.Described circulating pump 8 also includes the defecator being arranged on circulating pump 8.In order to avoid the waste of electrolyte, design defecator extends the service life of electrolyte electrolyte.
This utility model is described below in detail and carries out the flow process of differential arc oxidation:
Comprise the following steps: the surfaces externally and internally of (1) Aluminum Bottle to wanting differential arc oxidation carries out pretreatment and deoils;
(2) being fixed by the Aluminum Bottle outer surface rustless steel buckle after going oil processing, rustless steel buckle electrically connects with the anode of power supply, and the rustless steel fluid reservoir being arranged at rustless steel upper end of nozzle electrically connects with the negative electrode of power supply, and power supply is high-frequency and high-voltage power supply;
(3) by power settings electrical quantity and the electrolyte prepared is poured in stainless steel electrolytic cell body;
(4) rustless steel nozzle is adjusted decline by jack up unit, stretch into the inner surface of Aluminum Bottle.Because fixed station is positioned at the underface of jack up unit, therefore rustless steel nozzle enters Aluminum Bottle is also center position.As long as so adjusting upper-lower position to suitably distance.
(5) switch on power, the surfaces externally and internally of Aluminum Bottle is carried out differential arc oxidation process.
(6) electrolyte circulates ejection by rustless steel fluid reservoir from rustless steel nozzle, the outlet being positioned at stainless steel electrolytic cell body lower end enter circulating pump and chiller enters next one circulation.
Described electrolyte uses silicate systems, including following component: 10g/L sodium silicate and appropriate potassium hydroxide, potassium fluoride and glycerol.Described electrical quantity is: voltage range is 550V to 650V, and frequency is 400HZ, and dutycycle is 30%.
Above disclosed it is only preferred embodiment of the present utility model, certainly can not limit the interest field of this utility model, the equivalent variations therefore made according to this utility model claim with this, still belong to the scope that this utility model is contained.

Claims (10)

1. the device processed for Aluminum Bottle surfaces externally and internally pottery, it is characterized in that, including: aluminum bottle, produce the power supply of high-frequency and high-voltage, stainless steel frame, stainless steel electrolytic cell body, rustless steel fluid reservoir, nozzle duct, rustless steel nozzle, the negative electrode of described power supply is connected on described rustless steel fluid reservoir and described stainless steel electrolytic cell body, described rustless steel fluid reservoir connects described nozzle duct, and connect described rustless steel nozzle by described nozzle duct, described Aluminum Bottle is placed on described stainless steel frame, the anode of described power supply is connected on described stainless steel frame, described rustless steel fluid reservoir is built-in with electrolyte, described rustless steel nozzle stretches into the inner surface of described Aluminum Bottle, connect described power supply, the inner surface of described Aluminum Bottle is carried out differential arc oxidation process.
2. the device processed for Aluminum Bottle surfaces externally and internally pottery as claimed in claim 1, it is characterized in that, also include that jack up unit, described jack up unit are connected to, above described rustless steel fluid reservoir, described rustless steel fluid reservoir, nozzle duct and rustless steel nozzle are mentioned or declined.
3. the device processed for Aluminum Bottle surfaces externally and internally pottery as claimed in claim 1, it is characterised in that also including circulating pump, the lower end of described stainless steel electrolytic cell body is provided with the outlet of electrolyte, described outlet connects described fluid reservoir by described circulating pump.
4. the device processed for Aluminum Bottle surfaces externally and internally pottery as claimed in claim 3, it is characterised in that described circulating pump is also associated with chiller, electrolyte connects described rustless steel fluid reservoir through described chiller.
5. the device processed for Aluminum Bottle surfaces externally and internally pottery as claimed in claim 2, it is characterised in that the bottom of described stainless steel electrolytic cell body is provided with fixed station, and described stainless steel frame is located on described fixed station.
6. the device processed for Aluminum Bottle surfaces externally and internally pottery as claimed in claim 1, it is characterised in that described rustless steel nozzle is laid with nozzle bore equably, and described nozzle bore jet electrolytic liquid also carries out operation to described Aluminum Bottle.
7. the device processed for Aluminum Bottle surfaces externally and internally pottery as claimed in claim 6, it is characterised in that coating plastic drainage screen on described rustless steel nozzle.
8. the device processed for Aluminum Bottle surfaces externally and internally pottery as claimed in claim 1, it is characterised in that have 4 buckles, described Aluminum Bottle cervical region to be stuck in rustless steel card and buckle on described stainless steel frame, described stainless steel frame can install 4 described Aluminum Bottles simultaneously.
9. the device processed for Aluminum Bottle surfaces externally and internally pottery as claimed in claim 1, it is characterised in that equipped with pressure-regulating valve on described rustless steel fluid reservoir, the pressure of nozzle is adjusted by described pressure-regulating valve.
10. the device processed for Aluminum Bottle surfaces externally and internally pottery as claimed in claim 5, it is characterised in that described fixed station is positioned at the underface of described jack up unit, described rustless steel nozzle enters at described Aluminum Bottle center position.
CN201620233753.1U 2016-03-24 2016-03-24 A device for aluminum bottle internal and external surface pottery is handled Expired - Fee Related CN205474049U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201620233753.1U CN205474049U (en) 2016-03-24 2016-03-24 A device for aluminum bottle internal and external surface pottery is handled

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201620233753.1U CN205474049U (en) 2016-03-24 2016-03-24 A device for aluminum bottle internal and external surface pottery is handled

Publications (1)

Publication Number Publication Date
CN205474049U true CN205474049U (en) 2016-08-17

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN107587181A (en) * 2017-09-26 2018-01-16 西南石油大学 A kind of titanium alloy pipe inwall micro-arc oxidation device and its differential arc oxidation treatment method

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN107587181A (en) * 2017-09-26 2018-01-16 西南石油大学 A kind of titanium alloy pipe inwall micro-arc oxidation device and its differential arc oxidation treatment method

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CF01 Termination of patent right due to non-payment of annual fee
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20160817

Termination date: 20190324