CN206814867U - Novel anode oxidation treatment device - Google Patents

Abstract

The utility model discloses Novel anode oxidation treatment device, including input chamber, oxidizing chamber, output room and conveying mechanism, conveying mechanism sequentially passes through input chamber, oxidizing chamber and output room along itself conveying direction；Electrolyte, anode posts and cathode column are provided with the oxidizing chamber, the cathode column is located at the outside of anode posts and can moved towards the direction close to or away from the anode posts；The anode posts are provided with fixture, and the fixture is used to clamp the aluminum pipe to be processed on the conveying mechanism, and the aluminum pipe is electrically connected with the anode posts；Formed with cartridge part on the cathode column, the cartridge part is used to insert to aluminum pipe, and is arranged at intervals with aluminum pipe inwall；Input chamber and output interior are equipped with drying unit and extractor fan.Novel anode oxidation treatment device of the present utility model, can be to being dried processing before and after aluminum pipe oxidation processes, and oxidation effectiveness is preferable inside and outside aluminum pipe.

Description

Novel anode oxidation treatment device

Technical field

It the utility model is related to anode oxidation process technical field, more particularly to a kind of Novel anode oxidation treatment device.

Background technology

Aluminium and its alloy are under corresponding electrolyte and specific process conditions, in the presence of impressed current, in aluminium The process that layer oxide film is formed on product (anode) is referred to as anodic oxidation.In actual production technique, aluminum pipe often passes through Pre- degreasing, washing, pure water just proceed by anodized after the process such as washing, and are required to aluminium before and after oxidizing process The water of alloy surface is dried.But existing anodic oxidation equipment is only capable of carrying out anodized, and process continuity is poor, Cause low production efficiency.In addition, being only capable of being directed to outside aluminum pipe in existing anodic oxidation equipment has preferable oxidation processes, but by Substantial amounts of heat is easily produced when inside pipe wall aoxidizes, causes the easy efflorescence of oxide-film of inside pipe wall, oxidation effectiveness is poor.

Utility model content

For overcome the deficiencies in the prior art, the purpose of this utility model is that providing a kind of Novel anode oxidation processes sets It is standby, can be to processing be dried before and after aluminum pipe oxidation processes, and oxidation effectiveness is preferable inside and outside aluminum pipe.

The purpose of this utility model is realized using following technical scheme：

Novel anode oxidation treatment device, including input chamber, oxidizing chamber, output room and for conveying aluminum pipe to be processed Conveying mechanism, the conveying direction of the input chamber, oxidizing chamber and output room along the conveying mechanism are arranged in order；And conveyer Structure sequentially passes through input chamber, oxidizing chamber and output room along itself conveying direction；

Electrolyte, anode posts and cathode column are provided with the oxidizing chamber, the cathode column is located at the outside of anode posts simultaneously It can be moved towards the direction close to or away from the anode posts；The anode posts are provided with fixture, and the fixture is used to clamp institute The aluminum pipe to be processed on conveying mechanism is stated, and the aluminum pipe is electrically connected with the anode posts；On the cathode column formed with Cartridge part, the cartridge part be used for cathode column towards close to anode posts motion when insert to aluminum pipe, and with aluminum pipe inwall interval Set；

Input chamber and output interior are equipped with drying unit and extractor fan.

Preferably, the extractor fan includes cover body and air exhauster, and the air inlet of air exhauster is communicated in the top of cover body, The air outlet and ft connection of air exhauster；The bottom of cover body is right against output mechanism.

Preferably, the inwall of the cover body is provided with spongy layer.

Preferably, the drying unit is infrared heating pipe.

Preferably, the output interior is provided with collecting box, and the opening of the collecting box is connected in the end of the conveying mechanism.

Preferably, the outer cover of the cartridge part is equipped with multiple insulators, length of the plurality of insulator along the cartridge part Degree direction is intervally arranged.

Compared with prior art, the beneficial effects of the utility model are：Cartridge part when it is aoxidized on cathode column can insert In aluminum pipe inwall, aluminum pipe inwall is also formed preferable oxide-film, i.e., can be formed preferably inside and outside aluminum pipe in oxidizing chamber Oxide-film.In addition, after before oxidation, aluminum pipe can obtain drying process by conveying mechanism in input chamber and output interior, carry The continuity of high process, production efficiency are high.

Brief description of the drawings

Fig. 1 is structural representation of the present utility model.

In figure：10th, input chamber；20th, oxidizing chamber；21st, anode posts；22nd, fixture；23rd, cathode column；24th, cartridge part；30th, it is defeated Go out room；31st, collecting box；40th, conveying mechanism；50th, aluminum pipe；60th, air exhauster；61st, cover body.

Embodiment

Below, with reference to accompanying drawing and embodiment, the utility model is described further：

Novel anode oxidation treatment device as shown in Figure 1, including input chamber 10, oxidizing chamber 20, output room 30 and defeated Mechanism 40 is sent, the conveying direction of input chamber 10, oxidizing chamber 20 and output room 30 along conveying mechanism 40 is arranged in order, and conveyer Structure 40 sequentially passes through input chamber 10, oxidizing chamber 20 and output room 30 along itself conveying direction；That is conveying mechanism 40 can will be to be added The aluminum pipe 50 of work is delivered to oxidizing chamber 20 and output room 30 successively by input chamber 10.

Electrolyte, anode posts 21 and cathode column 23 are provided with specific oxidizing chamber 20, cathode column 23 is located at anode posts 21 Outside, and cathode column 23 can towards close to or away from the anode posts 21 directions move.Folder is provided with anode posts 21 Tool 22, the fixture 22 is used to clamp the aluminum pipe to be processed 50 on the conveying mechanism 40, and makes the aluminum pipe 50 and anode posts 21 It is electrically connected with.Simultaneously formed with cartridge part 24 on cathode column 23, the cartridge part 24 is used in cathode column 23 towards close to anode Post 21 is inserted to aluminum pipe 50 when moving, and is arranged at intervals with the inwall of aluminum pipe 50.In addition, in input chamber 10 and output room 30 Provided with drying unit and extractor fan.

, can be by aluminum pipe 50 to be processed during using Anodic oxidation treatment device of the present utility model on the basis of said structure The input for the conveying mechanism 40 being placed in input chamber 10, aluminum pipe 50 to be processed is dried by drying unit, made The dry tack free of aluminum pipe 50, it is easy to follow-up oxidation technology, while extractor fan can take away caused water in the drying course of aluminum pipe 50 Steam, vapor is avoided to drip.Hereafter, aluminum pipe 50 is sent into oxidizing chamber 20 through conveying mechanism 40, can be by anode posts 21 Fixture 22 grips aluminum pipe 50, aluminum pipe 50 is electrically connected with anode posts 21.Now, cathode column 23 can be made towards close to anode posts 21 direction motion, cartridge part 24 can be inserted to aluminum pipe 50, anode posts 21 and cathode column 23 is powered, in the work of electrolyte Under, start to aoxidize inside and outside aluminum pipe 50, and cartridge part 24 also can be in the Nell wall of aluminum pipe 50 and cartridge part 24 in the presence of electric current Precipitated oxygen and hydrogen make to produce negative pressure in pipe, promote pipe internal oxidition liquid to produce convection current, constantly update tank liquor and take away heat, make The inwall of aluminum pipe 50 can also form oxide-film.

Aluminum pipe 50 after peroxidating can be unclamped by fixture 22, be continued on to by conveying mechanism 40 in output room 30, and Drying unit is dried to aluminum pipe 50 to be processed again, makes the dry tack free of aluminum pipe 50, is easy to subsequently store, while exhausting fills Caused water vapour in the drying course of aluminum pipe 50 can be taken away by putting, and avoid vapor from dripping.In this way, aluminum pipe 50 is through defeated in whole process Send mechanism 40 to convey, improve the continuity of process, production efficiency is high.

Preferably, extractor fan may include cover body 61 and air exhauster 60, the air inlet of air exhauster 60 is communicated in cover body 61 top, the air outlet and ft connection of air exhauster 60, while but the bottom of cover body 61 is right against output mechanism, so covers Body 61 covers aluminum pipe 50, carries out exhausting, and concentration takes away vapor caused by the drying of aluminum pipe 50.

Preferably, spongy layer also is provided with the inwall of cover body 61, spongy layer water suction, vapor can be avoided in cover body 61 Wall drips to the cold.

Preferably, in the present embodiment infrared heating pipe, good drying effect can be selected in drying unit, and is easily installed.

Preferably, collecting box 31 can be also provided with by exporting in room 30, and the opening of the collecting box 31 is specifically engaged on conveying mechanism 40 end, so aoxidize and directly can be fallen to by dried aluminum pipe 50 by conveying mechanism 40 in collecting box 31 and deposited Collection is put, automaticity is higher.

Preferably, multiple insulators can be also set with the outside of cartridge part 24, the plurality of insulator is along cartridge part 24 Length direction is intervally arranged, and can so avoid cartridge part 24 from being contacted with the inwall of aluminum pipe 50 and produce short circuit phenomenon.

It will be apparent to those skilled in the art that technical scheme that can be as described above and design, make other various Corresponding change and deformation, and all these changes and deformation should all belong to the protection of the utility model claims Within the scope of.

Claims (6)

1. Novel anode oxidation treatment device, it is characterised in that including input chamber, oxidizing chamber, output room and for convey treat The conveying mechanism of aluminum pipe is processed, the conveying direction of the input chamber, oxidizing chamber and output room along the conveying mechanism is arranged successively Row；And conveying mechanism sequentially passes through input chamber, oxidizing chamber and output room along itself conveying direction；

It is provided with electrolyte, anode posts and cathode column in the oxidizing chamber, the cathode column is located at the outside of anode posts and can be to The direction motion close to or away from the anode posts；The anode posts are provided with fixture, and the fixture is described defeated for clamping The aluminum pipe to be processed in mechanism is sent, and the aluminum pipe is electrically connected with the anode posts；Formed with inserting on the cathode column Portion, the cartridge part is used to insert to aluminum pipe when cathode column is towards close to anode posts motion, and is arranged at intervals with aluminum pipe inwall；

Input chamber and output interior are equipped with drying unit and extractor fan.

2. Novel anode oxidation treatment device as claimed in claim 1, it is characterised in that the extractor fan include cover body with And air exhauster, the air inlet of air exhauster are communicated in the top of cover body, the air outlet and ft connection of air exhauster；The bottom of cover body is just For output mechanism.

3. Novel anode oxidation treatment device as claimed in claim 2, it is characterised in that the inwall of the cover body is provided with sponge Layer.

4. Novel anode oxidation treatment device as claimed in claim 1, it is characterised in that the drying unit is infrared heating Pipe.

5. Novel anode oxidation treatment device as claimed in claim 1, it is characterised in that indoor be provided with of the output is collected Case, the opening of the collecting box are connected in the end of the conveying mechanism.

6. Novel anode oxidation treatment device as claimed in claim 1, it is characterised in that the outer cover of the cartridge part is equipped with Multiple insulators, length direction of the plurality of insulator along the cartridge part are intervally arranged.