CN212955397U - Anodic oxidation device for aluminum alloy section - Google Patents

Abstract

The utility model relates to an aluminum alloy oxidation equipment technical field, and disclose an anodic oxidation device for aluminum alloy ex-trusions, solved current anodic oxidation device for aluminum alloy ex-trusions can not put into aluminum alloy ex-trusions conveniently to and can not be convenient take out the problem of the aluminum alloy ex-trusions after oxidizing, it includes the oxidation pond, the inside of oxidation pond is equipped with arc oxidation tank, the middle part of oxidation pond top both sides all fixed mounting have the fixed block, rotate between two fixed blocks and install the pivot, install power unit between one end of pivot and one side of oxidation pond, the mid-mounting of pivot has the frame of placing, the top fixed mounting of one of them fixed block has the connecting block; this anodic oxidation device for aluminum alloy ex-trusions can effectually put into and take out aluminum alloy ex-trusions to and can take out and drip dry the aluminum alloy ex-trusions that the in-process of putting into has oxidized, thereby can last effectual oxidation use to aluminum alloy ex-trusions.

Description

Anodic oxidation device for aluminum alloy section

Technical Field

The utility model belongs to the technical field of aluminum alloy oxidation equipment, specifically be an anodic oxidation device for aluminum alloy ex-trusions.

Background

Aluminum alloys are the most widely used non-ferrous structural materials in industry; with the rapid development of the aerospace, automotive, machinery, marine and chemical industries, aluminum alloys are the most used alloys, resulting in different requirements for aluminum alloy materials, such as: high strength, good toughness, good processing performance, high temperature resistance, corrosion resistance and the like; in order to improve the corrosion resistance of the aluminum alloy, the aluminum alloy needs to be electrolyzed in a sulfuric acid electrolyte, and a dense oxide layer is generated on the surface of the aluminum alloy to improve the corrosion resistance.

The existing anodic oxidation device for the aluminum alloy section cannot conveniently place the aluminum alloy section into the oxidation device when in use, and cannot conveniently take the oxidized aluminum alloy section out of the oxidation device, so that the practicability of the oxidation device cannot meet the use requirements of people; therefore, improvements are now needed in view of the current situation.

SUMMERY OF THE UTILITY MODEL

To the above situation, for overcoming prior art's defect, the utility model provides an anodic oxidation device for aluminum alloy ex-trusions, the effectual anodic oxidation device for aluminum alloy ex-trusions who has now among the above-mentioned background art of having solved can not conveniently put into aluminum alloy ex-trusions to and the problem that can not convenient take out the aluminum alloy ex-trusions after the oxidation.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an anodic oxidation device for aluminum alloy ex-trusions, including the oxidation pond, the inside of oxidation pond is equipped with arc oxidation groove, the equal fixed mounting in middle part of oxidation pond top both sides has the fixed block, rotate between two fixed blocks and install the pivot, install power unit between the one end of pivot and one side of oxidation pond, the mid-mounting of pivot has the frame of placing, the top fixed mounting of one of them fixed block has the connecting block, the top fixed mounting of connecting block has the diaphragm, moving mechanism is all installed to the both sides of diaphragm, air-dry mechanism is all installed at two moving mechanism's middle part, equal fixed mounting has the supporting shoe between the both ends of diaphragm bottom and the top of.

Preferably, the two ends of the top of the oxidation pond are both fixedly provided with a baffle.

Preferably, the power mechanism comprises a first forward and reverse rotation motor, a first gear, a second gear and a chain, the first forward and reverse rotation motor is installed in the middle of one side of the oxidation pond, the first gear is fixedly installed at the output end of the first forward and reverse rotation motor, the second gear is fixedly installed at one end of the rotating shaft, and the chain is in transmission connection between the first gear and the second gear.

Preferably, the placing frame comprises a frame body, a leakage net and two inclined plates, one end of the frame body is fixedly connected with the rotating shaft, the leakage net is installed in the middle of the frame body, and the two inclined plates are installed on two sides of the other end of the frame body respectively.

Preferably, two moving mechanism all includes moving clamping groove, threaded shaft and the positive reverse motor of second, and two moving clamping grooves set up respectively at the both ends of diaphragm one side, and the threaded shaft rotates and installs in moving clamping groove's inside, and the positive reverse motor of two seconds is installed respectively at the both ends of diaphragm, and the output of the positive reverse motor of second is connected with the one end stationary phase of threaded shaft.

Preferably, two air-dry mechanism all includes removal fixture block, recess, third positive and negative motor, turning block, air duct and gas outlet, and the recess is seted up in one side of removing the fixture block, and the third positive and negative motor is installed at the top of removing the fixture block, and the turning block rotates and installs in the inside of recess, and the output of third positive and negative motor is connected with the top of turning block is fixed, and the air duct is installed in one side of turning block, and the gas outlet equidistance is seted up in the bottom of air duct.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) in the work, the anodic oxidation device for the aluminum alloy section can effectively put in and take out the aluminum alloy section and can take out and drain the oxidized aluminum alloy section in the putting process by arranging the arc-shaped oxidation groove, the fixing block, the rotating shaft, the power mechanism, the placing frame, the connecting block, the transverse plate, the moving mechanism, the air drying mechanism and the baffle plate, so that the aluminum alloy section can be continuously and effectively oxidized and used, and the practicability of the oxidation device can meet the use requirements of people;

(2) when the device works: when the aluminum alloy section is required to be placed in the arc-shaped oxidation tank for oxidation, firstly, the aluminum alloy section is placed on the surfaces of the frame body and the leakage net, then the first forward and reverse rotating motor is started to drive the rotating shaft to rotate through the first gear, the second gear and the chain, the rotating shaft can drive the frame body, the leakage net and the inclined plate to rotate, so that the aluminum alloy section is placed in the arc-shaped oxidation tank for oxidation, meanwhile, the rotating shaft drives the frame body, the leakage net and the inclined plate to rotate to the other side of the top of the arc-shaped oxidation tank, and then the aluminum alloy section is placed on the surfaces of the frame body and the leakage net again; after the oxidation of the aluminum alloy section in the arc-shaped oxidation tank is finished, reversely starting a first forward and reverse rotating motor to enable a rotating shaft to drive a frame body, a leakage net and an inclined plate to rotate to the inside of the arc-shaped oxidation tank again, putting the aluminum alloy section which is just placed into the arc-shaped oxidation tank in the rotating process of the frame body, the leakage net and the inclined plate, and fishing out the oxidized aluminum alloy section in the arc-shaped oxidation tank; after fishing out, starting a third forward and reverse rotation motor to enable the rotation block to drive the air guide pipe to rotate and to be parallel to the frame body and the aluminum alloy section with the oxidized surface of the screen, then starting a second forward and reverse rotation motor in a forward and reverse mode to enable the movable fixture block to move back and forth on the surface of the threaded shaft, and simultaneously starting air drying to dry the aluminum alloy section through the air outlet; and then circularly operating according to the upper step.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

In the drawings:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic sectional view of the oxidation pond and the placing frame of the present invention;

FIG. 3 is an enlarged schematic view of the cross plate of the present invention;

in the figure: 1. an oxidation pond; 2. an arc oxidation tank; 3. a fixed block; 4. a rotating shaft; 5. a power mechanism; 501. a first positive and negative rotation motor; 502. a first gear; 503. a second gear; 504. a chain; 6. placing the frame; 601. a frame body; 602. a leakage net; 603. a sloping plate; 7. connecting blocks; 8. a transverse plate; 9. a moving mechanism; 901. moving the card slot; 902. a threaded shaft; 903. a second positive and negative rotation motor; 10. an air drying mechanism; 1001. moving the fixture block; 1002. a groove; 1003. a third positive and negative rotation motor; 1004. rotating the block; 1005. an air duct; 1006. an air outlet; 11. a support block; 12. and a baffle plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the 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; based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the first embodiment, as shown in fig. 1, fig. 2 and fig. 3, the utility model comprises an oxidation pond 1, an arc oxidation groove 2 is arranged inside the oxidation pond 1, a placing frame 6 can effectively fish up oxidized aluminum alloy sections through the arrangement of the arc oxidation groove 2, fixed blocks 3 are fixedly arranged in the middle of two sides of the top of the oxidation pond 1, a rotating shaft 4 is rotatably arranged between the two fixed blocks 3, a power mechanism 5 is arranged between one end of the rotating shaft 4 and one side of the oxidation pond 1, the placing frame 6 is arranged in the middle of the rotating shaft 4, the placing frame 6 can be effectively driven to rotate through the arrangement of the rotating shaft 4, a connecting block 7 is fixedly arranged at the top of one fixed block 3, a transverse plate 8 is fixedly arranged at the top of the connecting block 7, moving mechanisms 9 are arranged on two sides of the transverse plate 8, and an air drying mechanism 10 is arranged in the middle of, all fixed mounting has supporting shoe 11 between the both ends of diaphragm 8 bottom and the top of oxidation pond 1, through the setting of supporting shoe 11, can be effectual support fixedly to diaphragm 8.

In the second embodiment, on the basis of the first embodiment, as shown in fig. 1, baffles 12 are fixedly installed at both ends of the top of the oxidation pond 1, so that drained liquid cannot leak outside the oxidation pond 1.

Third embodiment, on the basis of the first embodiment, as shown in fig. 1, the power mechanism 5 includes a first forward/reverse rotation motor 501, a first gear 502, a second gear 503, and a chain 504, the first forward/reverse rotation motor 501 is installed in the middle of one side of the oxidation pond 1, the first gear 502 is fixedly installed at the output end of the first forward/reverse rotation motor 501, the second gear 503 is fixedly installed at one end of the rotating shaft 4, and the chain 504 is in transmission connection between the first gear 502 and the second gear 503, so that stable rotation power can be provided for the rotating shaft 4.

Fourth embodiment, on the basis of the first embodiment, as shown in fig. 2, the placing frame 6 includes a frame body 601, a strainer 602 and two sloping plates 603, one end of the frame body 601 is fixedly connected with the rotating shaft 4, the strainer 602 is installed in the middle of the frame body 601, and the two sloping plates 603 are respectively installed on two sides of the other end of the frame body 601, so that the aluminum alloy section can be effectively placed, fished and drained.

Fifth embodiment, on the basis of the first embodiment, as shown in fig. 3, each of the two moving mechanisms 9 includes a moving slot 901, a threaded shaft 902, and a second forward and reverse rotation motor 903, the two moving slots 901 are respectively disposed at two ends of one side of the horizontal plate 8, the threaded shaft 902 is rotatably mounted inside the moving slot 901, the two second forward and reverse rotation motors 903 are respectively mounted at two ends of the horizontal plate 8, and an output end of the second forward and reverse rotation motor 903 is fixedly connected to one end of the threaded shaft 902, so that stable moving power can be provided.

Sixth embodiment, on the basis of the first embodiment, as shown in fig. 3, each of the two air drying mechanisms 10 includes a movable fixture block 1001, a recess 1002, a third forward/reverse rotation motor 1003, a rotation block 1004, an air duct 1005 and an air outlet 1006, the recess 1002 is disposed on one side of the movable fixture block 1001, the third forward/reverse rotation motor 1003 is mounted on the top of the movable fixture block 1001, the rotation block 1004 is rotatably mounted inside the recess 1002, an output end of the third forward/reverse rotation motor 1003 is fixedly connected to the top of the rotation block 1004, the air duct 1005 is mounted on one side of the rotation block 1004, the air outlet 1006 is disposed at the bottom of the air duct 1005 at equal intervals, the two movable fixture blocks 1001 are respectively and threadedly connected to the surfaces of the two threaded shafts 902, and the air duct 1005 is connected to an external air drying air source, so.

The working principle is as follows: when the aluminum alloy section needs to be placed in the arc-shaped oxidation tank 2 for oxidation, firstly, the aluminum alloy section is placed on the surfaces of the frame body 601 and the leakage net 602, then the first forward and reverse rotating motor 501 is started to drive the rotating shaft 4 to rotate through the first gear 502, the second gear 503 and the chain 504, the rotating shaft 4 can drive the frame body 601, the leakage net 602 and the inclined plate 603 to rotate, so that the aluminum alloy section is placed in the arc-shaped oxidation tank 2 for oxidation, meanwhile, the rotating shaft 4 drives the frame body 601, the leakage net 602 and the inclined plate 603 to rotate to the other side of the top of the arc-shaped oxidation tank 2, and then the aluminum alloy section is placed on the surfaces of the frame body 601 and the leakage net 602 again; after the oxidation of the aluminum alloy section in the arc-shaped oxidation tank 2 is finished, reversely starting the first forward and reverse rotating motor 501, so that the rotating shaft 4 drives the frame body 601, the mesh screen 602 and the inclined plate 603 to rotate to the inside of the arc-shaped oxidation tank 2 again, the frame body 601, the mesh screen 602 and the inclined plate 603 can place the aluminum alloy section which is just placed in the arc-shaped oxidation tank 2 in the rotating process, and meanwhile, the frame body 601, the mesh screen 602 and the inclined plate 603 can also fish out the oxidized aluminum alloy section in the arc-shaped oxidation tank 2; after fishing out, starting a third forward and reverse rotation motor 1003 to enable a rotating block 1004 to drive an air duct 1005 to rotate and be parallel to the aluminum alloy section with the oxidized surfaces of the frame body 601 and the leakage net 602, then starting a second forward and reverse rotation motor 903 forward and reversely to enable a movable fixture block 1001 to move back and forth on the surface of the threaded shaft 902, and simultaneously starting air drying to air dry the aluminum alloy section through an air outlet 1006; and then circularly operating according to the upper step.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides an aluminum alloy is anodic oxidation device for section bar, includes oxidation pond (1), its characterized in that: the inside of oxidation pond (1) is equipped with arc oxidation groove (2), the equal fixed mounting in middle part of oxidation pond (1) top both sides has fixed block (3), rotate between two fixed block (3) and install pivot (4), install power unit (5) between the one end of pivot (4) and one side of oxidation pond (1), the mid-mounting of pivot (4) is placed frame (6), the top fixed mounting of one of them fixed block (3) has connecting block (7), the top fixed mounting of connecting block (7) has diaphragm (8), moving mechanism (9) are all installed to the both sides of diaphragm (8), air-dry mechanism (10) are all installed at the middle part of two moving mechanism (9), equal fixed mounting has supporting shoe (11) between the both ends of diaphragm (8) bottom and the top of oxidation pond (1).

2. The anodic oxidation apparatus for aluminum alloy sections according to claim 1, wherein: and baffles (12) are fixedly arranged at both ends of the top of the oxidation pond (1).

3. The anodic oxidation apparatus for aluminum alloy sections according to claim 1, wherein: the power mechanism (5) comprises a first forward and reverse rotation motor (501), a first gear (502), a second gear (503) and a chain (504), the first forward and reverse rotation motor (501) is installed in the middle of one side of the oxidation pond (1), the first gear (502) is fixedly installed at the output end of the first forward and reverse rotation motor (501), the second gear (503) is fixedly installed at one end of the rotating shaft (4), and the chain (504) is in transmission connection between the first gear (502) and the second gear (503).

4. The anodic oxidation apparatus for aluminum alloy sections according to claim 1, wherein: the placing frame (6) comprises a frame body (601), a leakage net (602) and two inclined plates (603), one end of the frame body (601) is fixedly connected with the rotating shaft (4), the leakage net (602) is installed in the middle of the frame body (601), and the two inclined plates (603) are installed on two sides of the other end of the frame body (601) respectively.

5. The anodic oxidation apparatus for aluminum alloy sections according to claim 1, wherein: two moving mechanism (9) all include moving draw-in groove (901), threaded shaft (902) and second positive and negative motor (903), and two moving draw-in grooves (901) are seted up respectively at the both ends of diaphragm (8) one side, and threaded shaft (902) rotate and install the inside at moving draw-in groove (901), and two second positive and negative motor (903) are installed respectively at the both ends of diaphragm (8), and the output of second positive and negative motor (903) is connected with the one end stationary phase of threaded shaft (902).

6. The anodic oxidation apparatus for aluminum alloy sections according to claim 1, wherein: two air-dry mechanism (10) all include removal fixture block (1001), recess (1002), third positive and negative motor (1003), turning block (1004), air duct (1005) and gas outlet (1006), one side at removal fixture block (1001) is seted up in recess (1002), the top at removal fixture block (1001) is installed in third positive and negative motor (1003), turning block (1004) rotate and install the inside at recess (1002), the output of third positive and negative motor (1003) is connected with the top of turning block (1004) is fixed, one side at turning block (1004) is installed in air duct (1005), the bottom at air duct (1005) is seted up to gas outlet (1006 equidistance.

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