CN213113559U - Full-automatic multifunctional aluminum profile anodic oxidation system - Google Patents

Abstract

The utility model relates to a full-automatic multifunctional aluminum profile anodic oxidation system, which belongs to the technical field of anodic oxidation systems and comprises a base frame, wherein an anodic oxidation tank is fixedly connected with the base frame, the anodic oxidation tank is fixedly connected with a first support frame, the two ends of the first support frame are respectively and fixedly connected with an anode rod and a cathode rod, the anodic oxidation tank is fixedly connected with a second support frame, the second support frame is fixedly connected with a cylinder body of a first air cylinder, an output shaft of the first air cylinder is articulated with a first connecting rod, the bottom of the first connecting rod is articulated with a first hinge rod, the bottom of the second support frame is fixedly connected with a second connecting rod, the bottom of the second connecting rod is articulated at the middle position of the first hinge rod, the first hinge rod is articulated with a workpiece groove body, the workpiece groove body is articulated with a second hinge rod, the inner wall of the anodic oxidation tank is articulated with a third hinge rod, the third, the utility model has the effects of sufficient oxidation and complete functions.

Description

Full-automatic multifunctional aluminum profile anodic oxidation system

Technical Field

The utility model relates to a technical field of anodic oxidation system especially relates to a full-automatic multi-functional aluminium alloy anodic oxidation system.

Background

At present, an extremely thin oxidation film is generated on the surface of an aluminum profile workpiece in the anodic oxidation process, so that the aluminum profile workpiece is protected, decorated, insulated and the like. In the anodic oxidation treatment, the anode and the cathode are fixed, and then the aluminum profile workpiece is put into the oxidizing liquid in the oxidation tank.

The above prior art solutions have the following drawbacks: when the user uses, the aluminium alloy work piece is in quiescent condition, and the aluminium alloy work piece is not enough with the oxidant reaction, and the user need expend the manpower and remove the aluminium alloy work piece, makes it fully react with the oxidant.

SUMMERY OF THE UTILITY MODEL

In order to save manpower and ensure that an aluminum profile workpiece can fully react with an oxidant, the application provides a full-automatic multifunctional aluminum profile anodic oxidation system.

The application provides a full-automatic multi-functional aluminium alloy anodic oxidation system adopts following technical scheme:

a full-automatic multifunctional aluminum profile anodic oxidation system comprises a base frame, wherein an anodic oxidation tank is fixedly connected to the top of the base frame, a first support frame is fixedly connected to the upper surface of the anodic oxidation tank, an anode rod and a cathode rod are respectively and fixedly connected to positions, close to two ends, of the first support frame, the bottoms of the anode rod and the cathode rod extend into the anodic oxidation tank, a second support frame is fixedly connected to the upper surface of the anodic oxidation tank, the second support frame is fixedly connected with a cylinder body of a first cylinder, an output shaft of the first cylinder is vertically arranged downwards, an output shaft of the first cylinder is hinged with a first connecting rod, the bottom of the first connecting rod extends into the anodic oxidation tank, a first hinge rod is hinged to the bottom of the first connecting rod, a second connecting rod is fixedly connected to the position, close to the first connecting rod, of the second support frame is arranged along the height direction of the anodic oxidation tank, and the bottom of the second connecting, the first hinge rod is kept away from that head rod one end articulates there is the work piece cell body, and the work piece cell body is kept away from that first hinge rod one side articulates there is the second hinge rod, and anodic oxidation inslot wall is close to that second hinge rod position department articulates there is the third hinge rod, and the inserting groove has been seted up to the third hinge rod, and the second hinge rod is pegged graft in the inserting groove that the third hinge rod corresponds, and the second hinge rod slides along the length direction of third hinge rod in the inserting groove.

By adopting the scheme, when the aluminum profile oxidizing device is used by a user, an aluminum profile is placed into the workpiece groove body, then the anode rod and the cathode rod are powered, and the surface of the aluminum profile is oxidized. Then start first cylinder, first cylinder drive first connecting rod reciprocates, and first articulated rod of first connecting rod drive motion, first articulated rod can be around the luffing motion of second connecting rod, and the work piece cell body can reciprocate together. The aluminum profile can be quickly and fully reacted with the oxidizing liquid, so that the formed oxide film is more uniform, and the labor is saved. The second hinge rod slides in the insertion groove corresponding to the third hinge rod, so that the workpiece groove body is prevented from turning on one side.

Preferably, a plurality of first water holes are formed in the side wall and the bottom of the workpiece groove body.

Through adopting above-mentioned scheme, when the user used, the oxidizing solution can pass through first hole of permeating water and aluminium alloy contact and react, improves the area of contact of aluminium alloy and oxidizing solution, improves the oxidation rate.

Preferably, the upper surface of the workpiece groove body is hinged with a groove body cover, and the cross section area of the groove body cover is equal to that of the workpiece groove body.

By adopting the scheme, when the aluminum profile feeding device is used by a user, after the aluminum profile is placed into the workpiece groove body, the groove body cover is covered, and the aluminum profile can not fall out of the workpiece groove body in the up-and-down swinging process.

Preferably, be provided with in the work piece cell body and filter the cell body, filter the cell body and can stretch into the work piece cell body, filter cell body lateral wall and bottom and all seted up a plurality of seconds and permeate water the hole, filter cell body upper surface fixed connection and pull pole, cell body lid corresponds pull pole position department and has seted up the drawing mouth.

Through adopting above-mentioned scheme, when the user used, the aluminium alloy was put into and is filtered in the cell body then will filter the cell body and put into the work piece cell body again, and after the oxidation process was accomplished, pulling pull pole, filtration cell body was opened the cell body lid top, then will filter the cell body and take out from the work piece cell body. The aluminium alloy of being convenient for the user to take saves time.

Preferably, the anodic oxidation groove corresponds long limit one side fixedly connected with washing tank, and washing tank upper surface corresponds long limit position department fixedly connected with spray pipe, and washing tank inner wall top position department fixedly connected with washs the board, washs board fixed connection and corresponds spray pipe position department in the washing tank inner wall, washs the board and sets up along the width direction of washing tank, the directional washing board setting of spray pipe.

Through adopting above-mentioned scheme, when the user used, take out the back with the aluminium alloy through filtering the cell body, put the aluminium alloy on the cleaning plate, then lead to water to the spray pipe, the spray pipe can wash the aluminium alloy for the shaping of oxide film guarantees the quality of oxide film.

Preferably, the fan is fixedly connected to the position, corresponding to the wide edge, of the upper surface of the cleaning tank and points to the cleaning plate.

By adopting the above scheme, when the user uses, wash the back, start the fan, the fan carries out drying process to the aluminium alloy, weathers the moisture on the aluminium alloy, guarantees the hard of oxide film.

Preferably, the bottom of the anodic oxidation tank is provided with a heat supply device capable of heating the anodic oxidation tank.

By adopting the scheme, when a user uses the oxidation device, the heating device is started in the oxidation process, and can raise the temperature of the oxidation liquid and keep the temperature stable. The normal operation of the oxidation process is ensured, and the working efficiency is improved.

Preferably, the bottom of the anodic oxidation tank is close to the cylinder body of the second cylinder fixedly connected with the positions at the two ends, the output shaft of the second cylinder is arranged along the width direction of the anodic oxidation tank, the fixing plates fixedly connected with the output shafts of the two second cylinders are fixedly connected with the heating device between the two fixing plates.

Through adopting above-mentioned scheme, when the user used, start the second cylinder, second cylinder drive fixed block and heating device slide in anodic oxidation groove bottom, make the oxidation liquid in the anodic oxidation inslot be heated more evenly, guarantee that final oxidation effect is more even.

Preferably, the pushing grooves are formed in the positions, corresponding to the four angular positions, of the lower surface of the base frame, the base frame corresponds to a cylinder body of a third cylinder fixedly connected in each pushing groove, an output shaft of each third cylinder is vertically arranged downwards, a rolling frame fixedly connected with an output shaft of each third cylinder is arranged, and each rolling frame is rotatably connected with a roller.

By adopting the scheme, when the device is used by a user, the base frame can be directly pushed to move on the ground, so that the user can conveniently and timely adjust the positions of the base frame and the anodic oxidation tank according to the requirement. After the position of the pedestal frame is moved, the third cylinder is closed, the roller and the rolling frame are retracted into the pushing groove by the third cylinder, the lower surface of the pedestal frame is abutted to the ground, the pedestal frame is prevented from moving in the oxidation process, and the oxidation quality is ensured.

To sum up, the utility model discloses following beneficial effect has:

1. the first connecting rod and the first hinge rod are designed to ensure that the aluminum profile can fully react with the oxidizing liquid;

2. the design of the spray pipe ensures that the oxidation film is harder, more beautiful and more corrosion-resistant.

Drawings

FIG. 1 is a schematic view of the overall structure of the embodiment;

FIG. 2 is a sectional view of a second embodiment of the stand;

FIG. 3 is a sectional view of a structure of a protruding fitting groove in the embodiment;

FIG. 4 is a sectional view showing a structure of a groove of a protruding workpiece in the embodiment;

FIG. 5 is a schematic view showing the structure of the cleaning tank;

FIG. 6 is a schematic view showing the construction of a heating apparatus in the embodiment;

FIG. 7 is a sectional view showing a structure of a protrusion pushing groove in the embodiment.

In the figure, 1, a pedestal frame; 11. an anodic oxidation tank; 12. a power supply device; 121. an anode conductive rod; 122. a cathode conductive rod; 13. a first support frame; 131. an anode rod; 132. a cathode rod; 2. a second support frame; 21. a first cylinder; 22. a first connecting rod; 23. a first hinge lever; 24. a second connecting rod; 25. a workpiece groove body; 251. a second hinge lever; 252. a third hinge rod; 253. inserting grooves; 254. a first water permeable hole; 255. a tank body cover; 2551. drawing the opening; 26. a filtering tank body; 261. a second water permeable hole; 262. a pull rod; 3. a cleaning tank; 31. a water spray pipe; 32. cleaning the plate; 33. a fan; 4. a second cylinder; 41. a fixing plate; 42. a heating device; 5. a push groove; 51. a third cylinder; 52. a rolling frame; 53. and a roller.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

The embodiment of the application discloses full-automatic multi-functional aluminium alloy anodic oxidation system, as shown in figure 1, including base frame 1, base frame 1 top fixedly connected with anodic oxidation groove 11, anodic oxidation groove 11 holds oxidizing solution. 11 lateral wall fixedly connected with power supply unit 12 in anodic oxidation groove, power supply unit 12 is fixedly connected with positive pole conducting rod 121 and negative pole conducting rod 122 respectively, 11 upper surface fixedly connected with first support frames 13 in anodic oxidation groove, first support frames 13 are close to both ends position department fixedly connected with positive pole 131 and negative pole 132 respectively, positive pole conducting rod 121 and negative pole conducting rod 122 are fixedly connected in positive pole 131 and negative pole 132 top respectively, positive pole 131 and negative pole 132 bottom all stretch into in anodic oxidation groove 11.

As shown in fig. 2 and 3, a second support frame 2 is fixedly connected to the upper surface of the anodic oxidation tank 11 near the first support frame 13, the second support frame 2 is fixedly connected with the cylinder body of the first cylinder 21, and the output shaft of the first cylinder 21 is vertically arranged downwards. The output shaft of the first cylinder 21 is hinged with a first connecting rod 22, the first connecting rod 22 is arranged along the height direction of the anodic oxidation tank 11, and the bottom of the first connecting rod 22 extends into the anodic oxidation tank 11. The first connecting rod 22 is hinged with a first hinge rod 23 at the bottom position. The second support frame 2 is fixedly connected with a second connecting rod 24 at a position close to the first connecting rod 22, the second connecting rod 24 is arranged along the height direction of the anodic oxidation tank 11, and the bottom of the second connecting rod 24 extends into the anodic oxidation tank 11. The bottom position of the second connecting rod 24 is hinged at the middle position of the first hinged rod 23. One end, far away from the first connecting rod 22, of the first hinged rod 23 is hinged to a workpiece groove 25, and the workpiece groove 25 is used for bearing and installing an aluminum section. One side of the workpiece groove body 25, which is far away from the first hinge rod 23, is hinged with a second hinge rod 251, the position, close to the second hinge rod 251, of the inner wall of the anodic oxidation tank 11 is hinged with a third hinge rod 252, the third hinge rod 252 is provided with an insertion groove 253, one end, which is far away from the workpiece groove body 25, of the second hinge rod 251 is inserted into the insertion groove 253 corresponding to the third hinge rod 252, and the second hinge rod 251 slides in the insertion groove 253 along the length direction of the third hinge rod 252. When the user uses, start first cylinder 21, first cylinder 21 drive first connecting rod 22 up-and-down motion, and first connecting rod 22 drives first articulated rod 23 and rotates around second connecting rod 24, and first articulated rod 23 can drive work piece cell body 25 up-and-down motion, and second articulated rod 251 and third articulated rod 252 can move along with work piece cell body 25. The aluminum profile in the workpiece groove 25 can be fully contacted with the oxidizing liquid, so that the quality of an oxide film formed on the surface of the aluminum profile is improved, and the working efficiency is improved.

As shown in fig. 4, a plurality of first water-permeable holes 254 are formed on both the side wall and the bottom of the workpiece tank 25. When the user uses, oxidation liquid can contact with the aluminium alloy through first hole 254 of permeating water. The aluminum profile can be fully reacted with the oxidizing liquid, and the oxidation is more uniform. The upper surface of the workpiece groove 25 is hinged with a groove cover 255, and the groove cover 255 covers the cross-sectional area of the workpiece groove 25. When the aluminum profile is used by a user, the groove body cover 255 is covered after the aluminum profile is placed into the workpiece groove body 25. The aluminum profile can not fall out of the workpiece groove body 25 when the workpiece groove body 25 moves.

As shown in fig. 4, a filtering tank 26 is disposed in the workpiece tank 25, the filtering tank 26 can extend into the workpiece tank 25, and a plurality of second permeable holes 261 are formed in the side wall and the bottom of the filtering tank 26. The upper surface of the filtering tank body 26 is fixedly connected with a drawing rod 262, and the drawing rod 262 is vertically arranged. The groove body cover 255 is provided with a drawing opening 2551 at a position corresponding to the drawing rod 262. When the aluminum profile filtering device is used by a user, an aluminum profile is placed into the filtering groove body 26, then the filtering groove body 26 is placed into the workpiece groove body 25 through the pull rod 262, and then the groove body cover 255 is covered. The user can take out the aluminum profile conveniently.

As shown in fig. 1 and 5, the anodic oxidation tank 11 is fixedly connected with the cleaning tank 3 corresponding to one side of the long side, the upper surface of the cleaning tank 3 is fixedly connected with the spray pipe 31 corresponding to the position of the long side, the top position of the inner wall of the cleaning tank 3 is fixedly connected with the cleaning plate 32, the cleaning plate 32 is fixedly connected with the inner wall of the cleaning tank 3 corresponding to the position of the spray pipe 31, and the cleaning plate 32 is arranged along the width direction of the cleaning tank 3. The water spray pipe 31 is disposed to be directed to the cleaning plate 32. When the user uses the cleaning device, the user pulls the pull rod 262 to take out the filtering tank body 26, and then puts the filtering tank body 26 on the cleaning plate 32. Then let in the spray pipe 31 with warm water, the spray pipe 31 washes the aluminium alloy in filtering the cell body 26 to make the oxide film who forms ageing, guarantee that the aluminium alloy is harder, more corrosion-resistant. The fan 33 is fixedly connected to the position of the upper surface of the cleaning tank 3 corresponding to the wide edge, and the fan 33 is arranged to point to the cleaning plate 32. When the user uses, wash the aluminium alloy after, start fan 33, carry out drying process to the aluminium alloy, guarantee the glossiness of aluminium alloy.

As shown in fig. 1 and 6, the bottom of the anodic oxidation tank 11 is fixedly connected with the cylinder body of the second cylinder 4 near both ends, and the output shaft of the second cylinder 4 is arranged along the width direction of the anodic oxidation tank 11. The output shafts of the two second cylinders 4 are fixedly connected with fixing plates 41, a heat supply device 42 is fixedly connected between the two fixing plates 41, and the heat supply device 42 is provided with heating wires. When the user uses the device, the second cylinder 4 is started, the second cylinder 4 drives the fixing plate 41 and the heat supply device 42 to slide along the width direction of the anodic oxidation tank 11, and the heat supply device 42 can heat the oxidation liquid to the required temperature and keep the temperature stable. The oxidizing liquid in the anodic oxidation tank 11 is ensured to keep a certain temperature, and the oxidation speed is improved.

As shown in fig. 1 and 7, the lower surface of the base frame 1 is provided with push grooves 5 at four corresponding angular positions, and the push grooves 5 are vertically arranged. The base frame 1 corresponds to a cylinder body of each pushing groove 5 and is fixedly connected with a third cylinder 51, an output shaft of each third cylinder 51 is arranged vertically downwards, an output shaft of each third cylinder 51 is fixedly connected with a rolling frame 52, and each rolling frame 52 is rotatably connected with a roller 53. When the user uses the apparatus, the third cylinder 51 is activated, and the third cylinder 51 drives the rolling frame 52 and the roller 53 to protrude from the push groove 5, thereby supporting the base frame 1 and facilitating the user to move the base frame 1 and the anodizing bath 11. After the base frame is moved to a specified position, a user closes the third air cylinder 51, the rolling frame 52 and the roller 53 retract into the pushing groove 5, the lower surface of the base frame 1 is enabled to be abutted against the ground, and the base frame 1 and the anodic oxidation tank 11 are enabled to be in a stable state in the working process.

The implementation principle of the full-automatic multifunctional aluminum profile anodic oxidation system in the embodiment of the application is as follows: when the aluminum electrolysis cell is used by a user, the oxidizing liquid is poured into the anodic oxidation cell 11, then the aluminum section is placed into the filtering cell body 26, then the filtering cell body 26 is placed into the workpiece cell body 25 through the drawing rod 262, and then the cell body cover 255 is covered. Start first cylinder 21 and second cylinder 4, first cylinder 21 drive first connecting rod 22 removes, and first connecting rod 22 makes first articulated rod 23 swing on second connecting rod 24 to the work piece cell body 25 that makes the first articulated rod 23 other end can the up-and-down motion, make the aluminium alloy in the work piece cell body 25 can fully contact with the oxidizing solution, promote the quality of oxide film. The second cylinder 4 drives the fixing plate 41 and the heating device 42 to move, so that the bottom of the anodic oxidation tank 11 can be uniformly heated, the oxidizing liquid is at a certain temperature, and the oxidizing speed is increased. After the oxidation process is finished, the pull rod 262 is pulled to pull the filtering tank body 26 out of the workpiece tank body 25, then the filtering tank body is placed on the cleaning plate 32, warm water is injected into the water spray pipe 31 to wash the aluminum section, after washing, the fan 33 is opened to dry the aluminum section, and the formed oxide film is guaranteed to be harder, attractive and more corrosion-resistant.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (9)

1. The utility model provides a full-automatic multi-functional aluminium alloy anodic oxidation system, includes base frame (1), base frame (1) top fixedly connected with anodic oxidation groove (11), fixed surface is connected with first support frame (13) on anodic oxidation groove (11), first support frame (13) are close to both ends position department respectively fixedly connected with positive pole (131) and negative pole (132), during positive pole (131) and negative pole (132) bottom all stretched into anodic oxidation groove (11), its characterized in that: the upper surface of the anodic oxidation tank (11) is fixedly connected with a second support frame (2), the second support frame (2) is fixedly connected with a cylinder body of a first cylinder (21), an output shaft of the first cylinder (21) is vertically arranged downwards, an output shaft of the first cylinder (21) is hinged with a first connecting rod (22), the bottom of the first connecting rod (22) extends into the anodic oxidation tank (11), the bottom of the first connecting rod (22) is hinged with a first hinge rod (23), the second support frame (2) is fixedly connected with a second connecting rod (24) close to the first connecting rod (22), the second connecting rod (24) is arranged along the height direction of the anodic oxidation tank (11), the bottom of the second connecting rod (24) is hinged at the middle position of the first hinge rod (23), one end of the first connecting rod (23) far away from the first hinge rod (22) is hinged with a workpiece groove body (25), one side, far away from the first hinged rod (23), of the workpiece groove body (25) is hinged with a second hinged rod (251), a third hinged rod (252) is hinged to the position, close to the second hinged rod (251), of the inner wall of the anodic oxidation groove (11), an insertion groove (253) is formed in the third hinged rod (252), the second hinged rod (251) is inserted into the insertion groove (253) corresponding to the third hinged rod (252), and the second hinged rod (251) slides in the insertion groove (253) along the length direction of the third hinged rod (252).

2. The full-automatic multifunctional aluminum profile anodic oxidation system of claim 1, characterized in that: the side wall and the bottom of the workpiece groove body (25) are provided with a plurality of first water permeable holes (254).

3. The full-automatic multifunctional aluminum profile anodic oxidation system of claim 1, characterized in that: the upper surface of the workpiece groove body (25) is hinged with a groove body cover (255), and the cross section area of the groove body cover (255) is equal to that of the workpiece groove body (25).

4. The full-automatic multifunctional aluminum profile anodic oxidation system of claim 3, characterized in that: the filtering tank body (26) is arranged in the workpiece tank body (25), the filtering tank body (26) can stretch into the workpiece tank body (25), a plurality of second water permeable holes (261) are formed in the side wall and the bottom of the filtering tank body (26), a drawing rod (262) is fixedly connected to the upper surface of the filtering tank body (26), and a drawing opening (2551) is formed in the position, corresponding to the drawing rod (262), of the tank body cover (255).

5. The full-automatic multifunctional aluminum profile anodic oxidation system of claim 1, characterized in that: anodic oxidation groove (11) correspond long limit one side fixedly connected with washing tank (3), washing tank (3) upper surface corresponds long limit position department fixedly connected with spray pipe (31), washing tank (3) inner wall top position department fixedly connected with washs board (32), washs board (32) fixed connection and corresponds spray pipe (31) position department in washing tank (3) inner wall, washs the width direction setting of board (32) along washing tank (3), the directional washing board (32) setting of spray pipe (31).

6. The full-automatic multifunctional aluminum profile anodic oxidation system of claim 5, characterized in that: the fan (33) is fixedly connected to the position, corresponding to the wide edge, of the upper surface of the cleaning tank (3), and the fan (33) points to the cleaning plate (32).

7. The full-automatic multifunctional aluminum profile anodic oxidation system of claim 1, characterized in that: the bottom of the anodic oxidation tank (11) is provided with a heating device (42) which can heat the anodic oxidation tank (11).

8. The full-automatic multifunctional aluminum profile anodic oxidation system of claim 1, characterized in that: the bottom of the anodic oxidation tank (11) is close to the cylinder body of the second cylinder (4) fixedly connected at the two ends, the output shaft of the second cylinder (4) is arranged along the width direction of the anodic oxidation tank (11), the output shafts of the two second cylinders (4) are fixedly connected with fixing plates (41), and the heat supply device (42) is fixedly connected between the two fixing plates (41).

9. The full-automatic multifunctional aluminum profile anodic oxidation system of claim 1, characterized in that: pushing grooves (5) are formed in the positions, corresponding to four angular positions, of the lower surface of the base frame (1), the base frame (1) corresponds to a cylinder body, fixedly connected with third cylinders (51) in each pushing groove (5), the output shafts of the third cylinders (51) are vertically arranged downwards, the output shafts of the third cylinders (51) are fixedly connected with rolling frames (52), and each rolling frame (52) is rotatably connected with a roller (53).

Images