Anode oxidation tank processing post cleaning device

By designing a high-pressure jet cleaning device that combines water and air, the problems of low cleaning efficiency and water waste after aluminum plate anodizing were solved, achieving efficient cleaning and water recycling.

CN224346479UActive Publication Date: 2026-06-12DONGGUAN JUNYUE ELECTRONIC TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
DONGGUAN JUNYUE ELECTRONIC TECHNOLOGY CO LTD
Filing Date
2025-01-09
Publication Date
2026-06-12

AI Technical Summary

Technical Problem

The existing manual cleaning of aluminum plates after anodizing is inefficient and consumes a lot of water, and traditional cleaning devices require frequent water changes.

Method used

A cleaning device comprising a fixing mechanism, a first cleaning mechanism, and a second cleaning mechanism was designed. It utilizes high-pressure nozzles and a blower to spray clean water and air respectively to clean the aluminum plate from all directions, thereby realizing the recycling of water resources.

Benefits of technology

It improves cleaning efficiency, reduces water consumption, and ensures the cleanliness of the aluminum plate surface.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses an anode oxidation groove processing post cleaning device belongs to the technical field of cleaning device. Including fixed mechanism, first cleaning mechanism, second cleaning mechanism, fixed mechanism includes fixed base, and the lateral surface of fixed base is provided with cavity, and the top surface of fixed base is installed with a pair of connecting plate, and a plurality of first fixed frame, a plurality of second fixed frame are established between a pair of connecting plate, and first fixed frame and second fixed frame fixed aluminum plate, and first cleaning mechanism includes a plurality of installation in the top surface of fixed base branch pipe, and a plurality of branch pipes are located between first fixed frame and second fixed frame, and the outside of branch pipe is installed with a plurality of high pressure nozzles, and first cleaning mechanism still includes a plurality of installation in the pipeline in cavity, and branch pipe and pipeline are connected, and the water pipe is connected between a plurality of pipelines, and the water pipe is connected through water pump and water source, and the top surface of fixed base is provided with a plurality of and the opening hole of cavity intercommunication, and second cleaning mechanism utilizes air to clean aluminum plate.
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Description

Technical Field

[0001] This utility model relates to the field of cleaning device technology, specifically a cleaning device after anodizing tank processing. Background Technology

[0002] During the processing of aluminum plates or aluminum alloy plates, the surface often requires anodizing. Anodizing is an electrolytic process that forms a thin film of aluminum oxide on the surface of the aluminum alloy plate, which enhances the various physical and chemical properties of the aluminum alloy. Anodizing is usually carried out in an anodizing bath. In use, the aluminum alloy is typically used as the anode, and a lead plate is used as the cathode. The aluminum alloy is then directly immersed in the anodizing bath to react with the aqueous solution in the bath, thereby generating an aluminum oxide film.

[0003] After anodizing, aluminum plates need to be cleaned to remove impurities and liquids. Currently, most of these cleaning methods are done manually, which is inefficient. Although there are some cleaning devices on the market, most of them use a large pool for cleaning, which requires water replacement after multiple cleanings, resulting in high water consumption. Utility Model Content

[0004] The purpose of this invention is to provide a cleaning device after anodizing tank processing to solve the problems mentioned in the background art.

[0005] In view of the above problems, the technical solution proposed by this utility model is as follows:

[0006] A post-anodizing cleaning device includes a fixing mechanism, a first cleaning mechanism, and a second cleaning mechanism. The fixing mechanism includes a fixing seat with a cavity on its side. A pair of connecting plates are mounted on the top surface of the fixing seat. A plurality of first fixing frames and a plurality of second fixing frames are provided between the pair of connecting plates. The first and second fixing frames fix aluminum plates. The first cleaning mechanism includes a plurality of branch pipes installed on the top surface of the fixing seat, with the branch pipes located between the first and second fixing frames. A plurality of high-pressure nozzles are installed on the outer side of the branch pipes. The first cleaning mechanism also includes a plurality of pipes installed in the cavity. The branch pipes are connected to the pipes. Water pipes are connected between the pipes. The water pipes are connected to a water source via a water pump. A plurality of openings communicating with the cavity are provided on the top surface of the fixing seat. The second cleaning mechanism uses air to clean the aluminum plates.

[0007] Specifically, several branch pipes are divided into several rows and arranged in several columns. Each branch pipe is located in the area formed between adjacent first fixed frames or adjacent second fixed frames, or outside the outermost first fixed frame or second fixed frame, so that clean water can be sprayed onto both sides of the aluminum plate under high pressure. The branch pipes in the same row are connected to the same pipe. The high-pressure nozzles are arranged in a row. The outermost branch pipe is equipped with only one row of high-pressure nozzles, and this row of high-pressure nozzles faces the first fixed frame or second fixed frame. The branch pipes in the middle are equipped with at least two rows of high-pressure nozzles, which face the first fixed frame or second fixed frame on the left and the first fixed frame or second fixed frame on the right, respectively. After the water pump is started, clean water flows into the branch pipe through the water pipe and the pipe, and is sprayed out through the high-pressure nozzles to clean both sides of the aluminum plate. Finally, it flows away through the opening.

[0008] Furthermore, the second cleaning mechanism includes a top cover that engages with the top surface of the pair of connecting plates. An air chamber is provided inside the top cover. An air nozzle connected to the air chamber is installed on the top surface of the top cover. The air nozzle is connected to a blower through an air pipe. Several air grooves connected to the air chamber are provided on the bottom surface of the top cover.

[0009] Specifically, the area formed between adjacent first fixed frames or adjacent second fixed frames is located directly below the air groove. After the blower is started, air enters the air chamber through the air nozzle and flows out of the air groove under high pressure. It is then blown to both sides of the aluminum plate to perform final cleaning on both sides of the aluminum plate.

[0010] Furthermore, a pair of slots are provided on the bottom surface of the top cover, and the connecting plate engages with the slots.

[0011] Specifically, when storing or retrieving aluminum plates, the top cover is removed; when cleaning aluminum plates, the top cover is placed on a pair of connecting plates.

[0012] Furthermore, a fixing plate slides between the pair of connecting plates, a plurality of second fixing frames are equidistantly mounted on the fixing plate, and a plurality of first fixing frames are equidistantly mounted on the side of one of the connecting plates and correspond one-to-one with the second fixing frames. The fixing mechanism includes a driving member for driving the fixing plate to move.

[0013] Specifically, the grooves of the first and second fixing frames are in opposite positions, and the two ends of the aluminum plate can extend into the grooves of the first and second fixing frames, while there is sufficient space between adjacent first fixing frames or adjacent second fixing frames.

[0014] Furthermore, the driving component includes an electrically operated telescopic rod mounted on the side of another of the connecting plates, the telescopic end of which is connected to the fixed plate.

[0015] Specifically, one end of the aluminum plate is inserted into the groove of the first fixed frame, and the electric telescopic rod is extended, causing the fixed plate to push the second fixed frame to move, thereby causing the other end of the aluminum plate to slide into the groove of the second fixed frame. The second fixed frame is then pushed until the aluminum plate is clamped by the first and second fixed frames.

[0016] Furthermore, a corrugated pipe is connected between the fixing plate and another connecting plate, and the corrugated pipe is sleeved on the telescopic rod of the electric telescopic rod.

[0017] The beneficial effect of adopting the above-mentioned further solution is that it ensures that the telescopic rod of the electric telescopic pole does not come into contact with water, and because the corrugated pipe has the ability to expand and contract, it will not affect the expansion and contraction of the electric telescopic pole.

[0018] Furthermore, cushioning rubber is installed in the grooves of several of the first fixing frames and several of the second fixing frames.

[0019] The beneficial effect of adopting the above-mentioned further solution is that the two ends of the aluminum plate do not directly contact the grooves of the first and second fixing frames, and the pressure of the first and second fixing frames on the aluminum plate is increased by the buffer rubber with strong deformation ability, so as to ensure that the aluminum plate can be stably fixed between the first and second fixing frames.

[0020] Compared with the prior art, the beneficial effects of this utility model are as follows: The cleaning device after anodizing tank processing, through the layered, rowed, and columned branch pipes and high-pressure nozzles in the first cleaning mechanism, enables clean water to be sprayed and cleaned on both sides of the aluminum plate under high pressure, achieving all-round cleaning of the aluminum plate and improving cleaning efficiency; the water after cleaning flows away through the opening on the top surface of the fixed base, and the user can collect this water flow, filter it, and then put it back into the cleaning of the aluminum plate. Compared with the traditional method of uniformly changing the water after cleaning in a large pool, it can better realize the recycling of water resources and reduce water consumption; the second cleaning mechanism uses the air generated by the blower and sprays the air out of the air tank at high pressure and blows it towards both sides of the aluminum plate, which can perform a final cleaning of the aluminum plate, further improving the cleaning effect and removing residual impurities and moisture from the surface of the aluminum plate. Attached Figure Description

[0021] Figure 1 This is a three-dimensional structural schematic diagram of the cleaning device after anodizing tank processing disclosed in an embodiment of the present utility model;

[0022] Figure 2 This is a first exploded structural diagram of the cleaning device after anodizing tank processing disclosed in an embodiment of the present utility model;

[0023] Figure 3 for Figure 2 Enlarged schematic diagram of structure A in the middle;

[0024] Figure 4 This is a bottom view of the first exploded structure of the cleaning device after anodizing tank processing disclosed in this embodiment of the present invention.

[0025] In the diagram: 100, fixing mechanism; 1001, fixing base; 1002, connecting plate; 1003, cavity; 1004, opening; 1005, first fixing frame; 1006, second fixing frame; 1007, fixing plate; 1008, electric telescopic rod; 1009, corrugated pipe; 200, first cleaning mechanism; 2001, branch pipe; 2002, high-pressure nozzle; 2003, pipeline; 2004, water pipe; 300, second cleaning mechanism; 3001, top cover; 3002, air nozzle; 3003, slot; 3004, air groove. Detailed Implementation

[0026] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0027] Please see Figure 1 - Figure 4This utility model provides a technical solution: a cleaning device after anodizing tank processing, including a fixing mechanism 100, a first cleaning mechanism 200, and a second cleaning mechanism 300. The fixing mechanism 100 includes a fixing seat 1001, a cavity 1003 is opened on the side of the fixing seat 1001, a pair of connecting plates 1002 are installed on the top surface of the fixing seat 1001, and a plurality of first fixing frames 1005 and a plurality of second fixing frames 1006 are provided between the pair of connecting plates 1002. The first fixing frames 1005 and the second fixing frames 1006 fix aluminum plates. The first cleaning mechanism 200 includes... The first cleaning mechanism 200 includes several branch pipes 2001 installed on the top surface of the fixed base 1001, and the branch pipes 2001 are located between the first fixed frame 1005 and the second fixed frame 1006. Several high-pressure nozzles 2002 are installed on the outside of the branch pipes 2001. The first cleaning mechanism 200 also includes several pipes 2003 installed in the cavity 1003. The branch pipes 2001 and the pipes 2003 are connected. Water pipes 2004 are connected between the pipes 2003. The water pipes 2004 are connected to a water source through a water pump. Several openings 10 communicating with the cavity 1003 are provided on the top surface of the fixed base 1001. 04. The second cleaning mechanism 300 uses air to clean the aluminum plate. Several branch pipes 2001 are arranged in several rows and columns. Each branch pipe 2001 is located within the area formed by adjacent first fixed frames 1005 or adjacent second fixed frames 1006, or outside the outermost first fixed frame 1005 or second fixed frame 1006, so that clean water can be sprayed onto both sides of the aluminum plate under high pressure. The branch pipes 2001 in the same row are connected to the same pipe 2003. The high-pressure nozzles 2002 are arranged in a row. Only one nozzle is installed on the outermost branch pipe 2001. A row of high-pressure nozzles 2002 is installed, and the row of high-pressure nozzles 2002 faces the first fixed frame 1005 or the second fixed frame 1006. At least two rows of high-pressure nozzles 2002 are installed on the branch pipe 2001 in the middle, and face the first fixed frame 1005 or the second fixed frame 1006 on the left and the first fixed frame 1005 or the second fixed frame 1006 on the right respectively. After the water pump is started, clean water flows into the branch pipe 2001 through the water pipe 2004 and the pipe 2003, and is sprayed out through the high-pressure nozzles 2002 to clean both sides of the aluminum plate, and finally flows away through the opening 1004.

[0028] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0029] Please see Figure 1 - Figure 4This utility model provides a technical solution: a cleaning device after anodizing tank processing. The second cleaning mechanism 300 includes a top cover 3001 that is engaged with the top surface of a pair of connecting plates 1002. An air chamber is opened inside the top cover 3001. An air nozzle 3002 connected to the air chamber is installed on the top surface of the top cover 3001. The air nozzle 3002 is connected to a blower through an air pipe. A plurality of air grooves 3004 connected to the air chamber are opened on the bottom surface of the top cover 3001. The area formed between adjacent first fixing frames 1005 or adjacent second fixing frames 1006 is located directly below the air grooves 3004. After the blower is started, air enters the air chamber through the air nozzles 3002 and flows out from the air grooves 3004 under high pressure. Then it is blown to both sides of the aluminum plate to perform final cleaning on both sides of the aluminum plate.

[0030] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0031] Please see Figure 1 - Figure 4 This utility model provides a technical solution: a cleaning device after anodizing tank processing, wherein a fixed plate 1007 slides between a pair of connecting plates 1002, a plurality of second fixed frames 1006 are equidistantly installed on the fixed plate 1007, and a plurality of first fixed frames 1005 are equidistantly installed on the side of one of the connecting plates 1002, corresponding one-to-one with the second fixed frames 1006. The fixing mechanism 100 includes a driving member for moving the fixed plate 1007, the grooves of the first fixed frames 1005 and the second fixed frames 1006 are in opposite positions, and both ends of the aluminum plate can extend into the grooves of the first fixed frames 1005 and the second fixed frames 1006. Sufficient space is left between adjacent first fixed frames 1005 or adjacent second fixed frames 1006. The driving component includes an electric telescopic rod 1008 installed on the side of another connecting plate 1002. The telescopic end of the electric telescopic rod 1008 is connected to the fixed plate 1007. One end of the aluminum plate is inserted into the groove of the first fixed frame 1005, and the electric telescopic rod 1008 is extended, so that the fixed plate 1007 pushes the second fixed frame 1006 to move, so that the other end of the aluminum plate slides into the groove of the second fixed frame 1006. The second fixed frame 1006 is pushed until the aluminum plate is clamped by the first fixed frame 1005 and the second fixed frame 1006.

[0032] Specifically, the working principle of this anodizing tank post-processing cleaning device is as follows: During use, one end of the aluminum plate is inserted into the groove of the first fixed frame 1005, and the electric telescopic rod 1008 is extended, causing the fixed plate 1007 to push the second fixed frame 1006 to move, thereby allowing the other end of the aluminum plate to slide into the groove of the second fixed frame 1006. The second fixed frame 1006 is continued to be pushed until the aluminum plate is clamped by the first fixed frame 1005 and the second fixed frame 1006. The water pump is then started, and clean water flows into the branch pipe 2001 through the water pipe 2004 and the pipe 2003, and is sprayed out through the high-pressure nozzle 2002 to clean both sides of the aluminum plate. Finally, the water flows away through the opening 1004. The blower is then started, and air enters the air chamber through the air nozzle 3002 and flows out from the air groove 3004 under high pressure, then blown towards both sides of the aluminum plate for final cleaning.

Claims

1. A cleaning device after anodizing tank processing, characterized in that, The system includes a fixing mechanism (100), a first cleaning mechanism (200), and a second cleaning mechanism (300). The fixing mechanism (100) includes a fixing base (1001), a cavity (1003) is provided on the side of the fixing base (1001), and a pair of connecting plates (1002) are installed on the top surface of the fixing base (1001). A plurality of first fixing frames (1005) and a plurality of second fixing frames (1006) are provided between the pair of connecting plates (1002). The first fixing frames (1005) and the second fixing frames (1006) fix aluminum plates. A buffer rubber is installed in the grooves of several second fixing frames (1006); a fixing plate (1007) slides between a pair of connecting plates (1002); several second fixing frames (1006) are installed at equal intervals on the fixing plate (1007); several first fixing frames (1005) are installed at equal intervals on the side of one of the connecting plates (1002) and correspond one-to-one with the second fixing frames (1006); the fixing mechanism (100) includes a driving member for driving the fixing plate (1007) to move; the driving member includes components installed on the other connecting plate (1002). The electric telescopic rod (1008) on the side has its telescopic end connected to the fixed plate (1007). A corrugated pipe (1009) is connected between the fixed plate (1007) and another connecting plate (1002), and the corrugated pipe (1009) is sleeved on the telescopic rod of the electric telescopic rod (1008). The first cleaning mechanism (200) includes a plurality of branch pipes (2001) installed on the top surface of the fixed base (1001), and the plurality of branch pipes (2001) are located between the first fixed frame (1005) and the second fixed frame (1006). The branch pipe (2001) is equipped with several high-pressure nozzles (2002) on its outer side. The first cleaning mechanism (200) also includes several pipes (2003) installed in the cavity (1003). The branch pipe (2001) and the pipes (2003) are connected. A water pipe (2004) is connected between the pipes (2003). The water pipe (2004) is connected to a water source through a water pump. The top surface of the fixed base (1001) is provided with several openings (1004) that communicate with the cavity (1003). The second cleaning mechanism (300) uses air to clean the aluminum plate.

2. The cleaning device after anodizing tank processing according to claim 1, characterized in that, The second cleaning mechanism (300) includes a top cover (3001) that engages with the top surface of a pair of connecting plates (1002). An air chamber is provided inside the top cover (3001). An air nozzle (3002) communicating with the air chamber is installed on the top surface of the top cover (3001). The air nozzle (3002) is connected to a blower through an air pipe. A plurality of air grooves (3004) communicating with the air chamber are provided on the bottom surface of the top cover (3001).

3. The cleaning device after anodizing tank processing according to claim 2, characterized in that, The bottom surface of the top cover (3001) is provided with a pair of slots (3003), and the connecting plate (1002) and the slots (3003) are engaged.