CN218026401U - Device is put in with multi-angle ration to anodic oxidation additive processing - Google Patents
Device is put in with multi-angle ration to anodic oxidation additive processing Download PDFInfo
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- CN218026401U CN218026401U CN202221830610.0U CN202221830610U CN218026401U CN 218026401 U CN218026401 U CN 218026401U CN 202221830610 U CN202221830610 U CN 202221830610U CN 218026401 U CN218026401 U CN 218026401U
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- supporting upright
- anodic oxidation
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Abstract
The utility model discloses a device is put in with multi-angle ration to anodic oxidation additive processing relates to anodic oxidation additive processing technology field, throws the angle of throwing in the unable free regulation of in-process of using of feeder apparatus for solving current additive, and the additive of throwing is difficult to accurate ration problem. The device comprises a supporting upright post, wherein the bottom of the supporting upright post is provided with an installation chassis, the installation chassis and the supporting upright post are integrally formed, and the outer wall of the supporting upright post is provided with a switch; further comprising: the two limiting chucks are integrally formed with the supporting upright column, a round sleeve is arranged between the two limiting chucks, a bearing is mounted on the inner wall of the round sleeve, and the round sleeve is movably connected with the supporting upright column through the bearing; and the integrated cross bar is arranged on the outer wall of the round sleeve, and one end of the integrated cross bar is provided with an additive temporary storage tank.
Description
Technical Field
The utility model relates to an anodic oxidation additive processing technology field specifically is a device is put in with multi-angle ration to anodic oxidation additive processing.
Background
Electrochemical oxidation of an anodized metal or alloy. Under the corresponding electrolyte and specific process conditions, the process of forming a layer of oxide film on the aluminum product under the action of external current is adopted for aluminum and aluminum alloy, the bath solution is a very important factor in the anodic oxidation processing, and the liquid in the bath solution needs to be added with additives.
For example, application numbers are: 202121066292.0 (named as an additive feeding control device) comprises a gas flow sensor, a PCL controller and an additive execution assembly, wherein the PCL controller is respectively in signal connection with the gas flow sensor and the additive execution assembly; the gas flow sensor is arranged in the power generation device and is used for acquiring a gas flow data signal in the power generation device; the PCL controller is used for receiving gas flow data signals acquired by the gas flow sensor and sending execution signals obtained after processing to the additive execution assembly; the additive execution component is used for receiving an execution signal sent by the PCL controller and adjusting the dosage of the scale inhibitor solution to be filled into the power generation device according to the execution signal.
The additive feeding device can not freely adjust the feeding angle in the using process, and the fed additive is difficult to accurately quantify, so that the multi-angle quantitative feeding device for processing the anodic oxidation additive is provided.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a device is put in with multi-angle ration to anodic oxidation additive processing to solve the current additive that proposes in the above-mentioned background art and throw the angle of throwing with the unable free regulation of in-process of using of feeder apparatus, and the additive of throwing with is difficult to accurate ration problem.
In order to achieve the above purpose, the utility model provides a following technical scheme: a multi-angle quantitative feeding device for processing an anodic oxidation additive comprises a support upright, wherein the bottom of the support upright is provided with an installation chassis, the installation chassis and the support upright are integrally formed, and the outer wall of the support upright is provided with a switch;
further comprising:
the two limiting chucks are arranged above the switch and are integrally formed with the supporting upright post, a round sleeve is arranged between the two limiting chucks, and a bearing is arranged on the inner wall of the round sleeve which is movably connected with the supporting upright post through the bearing;
the integrated cross bar is arranged on the outer wall of the round sleeve, one end of the integrated cross bar is provided with an additive temporary storage tank, the lower end of the additive temporary storage tank is provided with a discharge conduit, the discharge conduit and the additive temporary storage tank are integrally formed, and the outer wall of the other side of the round sleeve is provided with a rotating handle;
and the transparent quantifying barrel is arranged below the discharge guide pipe, the lower end of the transparent quantifying barrel is provided with a feeding port, and the feeding port and the transparent quantifying barrel are integrally formed.
Preferably, the outer walls of the discharging conduit and the feeding port are respectively provided with a first valve and a second valve, and the first valve and the second valve are respectively connected with the discharging conduit and the feeding port flange in a sealing manner.
Preferably, a threaded top opening is formed in the top of the transparent quantifying cylinder, the threaded top opening and the transparent quantifying cylinder are integrally formed, and the transparent quantifying cylinder is in threaded sealing connection with the discharging guide pipe through the threaded top opening.
Preferably, the inside of spacing chuck is provided with embedded annular groove, be provided with on the input end of switch and connect the electric plug.
Preferably, the inside of embedded annular is provided with the electro-magnet, the output of switch and the input electric connection of electro-magnet.
Preferably, the top of the support column is provided with a lifting ring, and the lifting ring and the support column are integrally formed.
Compared with the prior art, the beneficial effects of the utility model are that:
1. the utility model discloses a rotate and rotate the drive circle sleeve and rotate on support post, and then drive the additive jar of keeping in and carry out synchronous rotation, reach the purpose of angle modulation, adjust and accomplish the back, connect electric plug switch on to press the switch to the electro-magnet power supply, adsorb the position that fixed circle sleeve rotated the stop, improved the stability of throwing the feeding additive.
2. When the additive needs to be added in the anodic oxidation reaction, the first valve is opened firstly to pour the required amount of the additive into the transparent quantifying cylinder for temporary storage, then the first valve is closed, the second valve is opened, and the additive which is quantitatively measured is added into the anodic oxidation reaction through the adding port, so that the purpose of accurate quantification is achieved.
Drawings
FIG. 1 is a schematic view of the overall structure of the multi-angle quantitative feeding device for processing anodic oxidation additives of the present invention;
FIG. 2 is a schematic structural view of a transparent quantifying cylinder of the present invention;
FIG. 3 is a schematic view of the connection structure of the round sleeve and the supporting upright of the present invention;
FIG. 4 is a schematic view of the internal structure of the limiting chuck of the present invention;
in the figure: 1. supporting the upright post; 2. installing a chassis; 3. lifting the ring; 4. a switch; 5. connecting a power plug; 6. a limiting chuck; 7. a circular sleeve; 8. additive temporary storage tank; 9. an integral cross bar; 10. turning a handle; 11. a transparent quantifying cylinder; 12. a discharge conduit; 13. a first valve; 14. a feeding port; 15. a second valve; 16. a threaded top opening; 17. a bearing; 18. embedding a ring groove; 19. an electromagnet.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.
Referring to fig. 1-4, the present invention provides an embodiment: a multi-angle quantitative feeding device for processing an anodic oxidation additive comprises a support upright post 1, wherein the bottom of the support upright post 1 is provided with an installation chassis 2, the installation chassis 2 and the support upright post 1 are integrally formed, and the outer wall of the support upright post 1 is provided with a switch 4;
further comprising:
the two limiting chucks 6 are arranged above the switch 4, the two limiting chucks 6 are integrally formed with the supporting upright post 1, a round sleeve 7 is arranged between the two limiting chucks 6, a bearing 17 is arranged on the inner wall of the round sleeve 7, and the round sleeve 7 is movably connected with the supporting upright post 1 through the bearing 17;
the integrated cross bar 9 is arranged on the outer wall of the round sleeve 7, one end of the integrated cross bar 9 is provided with an additive temporary storage tank 8, the lower end of the additive temporary storage tank 8 is provided with a discharge conduit 12, the discharge conduit 12 and the additive temporary storage tank 8 are integrally formed, and the outer wall of the other side of the round sleeve 7 is provided with a rotating handle 10;
and the transparent quantitative cylinder 11 is arranged below the discharge conduit 12, the lower end of the transparent quantitative cylinder 11 is provided with a feeding port 14, and the feeding port 14 and the transparent quantitative cylinder 11 are integrally formed.
Referring to fig. 1, the outer walls of the discharge conduit 12 and the feeding port 14 are respectively provided with a first valve 13 and a second valve 15, the first valve 13 and the second valve 15 are respectively connected with the discharge conduit 12 and the feeding port 14 in a flange sealing manner, and the first valve 13 and the second valve 15 respectively arranged on the outer walls of the discharge conduit 12 and the feeding port 14 play a role in controlling the opening and closing flow of the discharge conduit 12 and the feeding port 14.
Referring to fig. 2, a threaded top opening 16 is formed at the top of the transparent quantitative cylinder 11, the threaded top opening 16 and the transparent quantitative cylinder 11 are integrally formed, the transparent quantitative cylinder 11 is in threaded sealing connection with the discharge conduit 12 through the threaded top opening 16, and the threaded top opening 16 formed at the top of the transparent quantitative cylinder 11 plays a role in facilitating connection and installation of the transparent quantitative cylinder 11.
Referring to fig. 1 and 4, an embedded ring groove 18 is formed inside the limiting chuck 6, the input end of the switch 4 is provided with the power connection plug 5, and the embedded ring groove 18 formed inside the limiting chuck 6 plays a role of bearing an electromagnet 19.
Referring to fig. 4, an electromagnet 19 is disposed inside the embedded ring groove 18, an output end of the switch 4 is electrically connected to an input end of the electromagnet 19, and the electromagnet 19 disposed inside the embedded ring groove 18 plays a role in facilitating the round sleeve 7 to be adsorbed and fixed.
Referring to fig. 1, a lifting ring 3 is disposed on the top of the supporting column 1, the lifting ring 3 is integrally formed with the supporting column 1, and the lifting ring 3 disposed on the top of the supporting column 1 plays a role of facilitating lifting the supporting column 1.
The working principle is as follows: when the device is used, the required anodic oxidation additive is poured into the additive temporary storage tank 8, then the rotary handle 10 is rotated to drive the circular sleeve 7 to rotate on the support upright post 1 according to the position to be added, and further the additive temporary storage tank 8 is driven to synchronously rotate to achieve the purpose of angle adjustment, after the adjustment is completed, the electric plug 5 is connected with a power supply, the switch 4 is pressed to supply power to the electromagnet 19, the position where the circular sleeve 7 stops in rotation is adsorbed and fixed, the stability of the added additive is improved, when the additive needs to be added in an anodic oxidation reaction, the first valve 13 is firstly opened to pour the required amount of additive into the transparent quantitative cylinder 11, then the first valve 13 is closed to temporarily open the second valve 15, the quantitatively measured additive is added into the anodic oxidation reaction through the adding port 14, the purpose of accurate quantification is achieved, and the use work of the multi-angle quantitative adding device for processing the anodic oxidation additive is completed.
It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.
Claims (6)
1. A multi-angle quantitative feeding device for processing an anodic oxidation additive comprises a supporting upright post (1), wherein the bottom of the supporting upright post (1) is provided with an installation chassis (2), the installation chassis (2) and the supporting upright post (1) are integrally formed, and the outer wall of the supporting upright post (1) is provided with a switch (4);
the method is characterized in that: further comprising:
the two limiting chucks (6) are arranged above the switch (4), the two limiting chucks (6) are arranged, the two limiting chucks (6) and the supporting upright post (1) are integrally formed, a round sleeve (7) is arranged between the two limiting chucks (6), a bearing (17) is mounted on the inner wall of the round sleeve (7), and the round sleeve (7) is movably connected with the supporting upright post (1) through the bearing (17);
the integrated cross bar (9) is arranged on the outer wall of the round sleeve (7), one end of the integrated cross bar (9) is provided with an additive temporary storage tank (8), the lower end of the additive temporary storage tank (8) is provided with a discharge guide pipe (12), the discharge guide pipe (12) and the additive temporary storage tank (8) are integrally formed, and the outer wall of the other side of the round sleeve (7) is provided with a rotating handle (10);
the transparent quantitative cylinder (11) is arranged below the discharge guide pipe (12), the lower end of the transparent quantitative cylinder (11) is provided with a feeding port (14), and the feeding port (14) and the transparent quantitative cylinder (11) are integrally formed.
2. The multi-angle quantitative feeding device for processing the anodic oxidation additive as claimed in claim 1, wherein: the outer walls of the discharge conduit (12) and the feeding port (14) are respectively provided with a first valve (13) and a second valve (15), and the first valve (13) and the second valve (15) are respectively in flange sealing connection with the discharge conduit (12) and the feeding port (14).
3. The multi-angle quantitative feeding device for processing the anodic oxidation additive as claimed in claim 1, wherein: the top of the transparent quantitative cylinder (11) is provided with a thread top opening (16), the thread top opening (16) and the transparent quantitative cylinder (11) are integrally formed, and the transparent quantitative cylinder (11) is in threaded sealing connection with the discharge guide pipe (12) through the thread top opening (16).
4. The multi-angle quantitative feeding device for processing the anodic oxidation additive as claimed in claim 1, wherein: the inside of spacing chuck (6) is provided with embedded annular (18), be provided with on the input of switch (4) and connect electric plug (5).
5. The multi-angle quantitative feeding device for processing the anodic oxidation additive as claimed in claim 4, wherein: the inside of embedded annular groove (18) is provided with electro-magnet (19), and the output of switch (4) and the input electric connection of electro-magnet (19).
6. The multi-angle quantitative feeding device for processing the anodic oxidation additive as claimed in claim 1, wherein: the top of the supporting upright post (1) is provided with a lifting ring (3), and the lifting ring (3) and the supporting upright post (1) are integrally formed.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202221830610.0U CN218026401U (en) | 2022-07-15 | 2022-07-15 | Device is put in with multi-angle ration to anodic oxidation additive processing |
Applications Claiming Priority (1)
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CN202221830610.0U CN218026401U (en) | 2022-07-15 | 2022-07-15 | Device is put in with multi-angle ration to anodic oxidation additive processing |
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CN218026401U true CN218026401U (en) | 2022-12-13 |
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CN202221830610.0U Active CN218026401U (en) | 2022-07-15 | 2022-07-15 | Device is put in with multi-angle ration to anodic oxidation additive processing |
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2022
- 2022-07-15 CN CN202221830610.0U patent/CN218026401U/en active Active
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