CN116024627A - Efficient aluminium alloy surface oxidation equipment - Google Patents
Efficient aluminium alloy surface oxidation equipment Download PDFInfo
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- CN116024627A CN116024627A CN202211455353.1A CN202211455353A CN116024627A CN 116024627 A CN116024627 A CN 116024627A CN 202211455353 A CN202211455353 A CN 202211455353A CN 116024627 A CN116024627 A CN 116024627A
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
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Abstract
The invention discloses efficient aluminum profile surface oxidation equipment, and relates to the technical field of aluminum profile processing. This kind of efficient aluminium alloy surface oxidation equipment, including oxidation tank and mechanical tongs, the top in oxidation tank is connected with the conveyer belt through conveying mechanism, and the surface of conveyer belt is provided with a plurality of fixture that are used for pressing from both sides tightly fixed aluminium alloy. The automatic continuous circulation oxidation treatment of the aluminum profile can be realized, meanwhile, the aluminum profile can be automatically clamped and loosened, the oxidation treatment efficiency of the aluminum profile is improved, in addition, the aluminum profile can be made to reciprocate up and down and reciprocate in the horizontal direction in the oxidation process, the flow of electrolyte is increased, the electrolyte is enabled to be in contact with the electrolyte more fully, meanwhile, the clamping position is guaranteed to be in full contact with the electrolyte, the oxidation is more uniform, and the oxidation treatment efficiency and effect are improved.
Description
Technical Field
The invention relates to the technical field of aluminum profile processing, in particular to efficient aluminum profile surface oxidation equipment.
Background
The aluminum profile is a metal material commonly used in daily production and life, and is subjected to surface oxidation treatment in order to make the outer part of the aluminum profile more corrosion-resistant and not easy to damage. The surface oxidation of the aluminum profile is carried out by adopting electrolyte oxidation treatment equipment, namely, under the action of corresponding electrolyte and specific process conditions, a layer of oxidation protection film is formed on the surface of the common aluminum profile by the action of externally applied current, so that the defects of the surface hardness, the wear resistance and the like of the aluminum alloy are overcome, the application range is enlarged, and the service life is prolonged.
However, when current electrolyte oxidation treatment facility carries out the oxidation to aluminium alloy, when carrying out aluminium alloy material loading, generally use the aluminium silk to bind aluminium alloy on the rack to put into the oxidation tank through the overhead traveling crane with the rack and carry out the oxidation, this has just caused the in-process of material loading and unloading, the operation is too loaded down with trivial details, influence oxidation treatment's efficiency, simultaneously, the position of aluminium alloy is relatively fixed when oxidizing, insufficient with electrolyte contact, and then lead to oxidation's inhomogeneous, oxidation treatment's inefficiency, and, aluminium alloy and aluminium silk and rack contact's position also are difficult to contact electrolyte, also can lead to oxidation's inhomogeneous, oxidation treatment's inefficiency.
Disclosure of Invention
The invention aims to provide efficient aluminum profile surface oxidation equipment so as to solve the problems in the background technology.
In order to achieve the above purpose, the present invention provides the following technical solutions: the high-efficiency aluminum profile surface oxidation equipment comprises an oxidation tank and a mechanical gripper, wherein the top of the oxidation tank is connected with a conveying belt through a conveying mechanism, and a plurality of clamping mechanisms for clamping and fixing aluminum profiles are arranged on the surface of the conveying belt;
each fixture includes the movable plate, and the movable plate passes through telescopic machanism and the surface connection of conveyer belt, the last lateral wall of movable plate is connected with the backup pad that two symmetries set up through first movable mechanism, and the last lateral wall fixedly connected with of each backup pad is used for carrying out the V type piece group of centre gripping to the aluminium alloy, V type piece group includes fixed block and movable block, the equal fixedly connected with protection pad of the lateral wall that fixed block and movable block are relative, and the fixed block is fixed with the last lateral wall of backup pad, the movable block is connected with the lateral wall of fixed block through first canceling release mechanical system, and the removal of movable block promotes through first pushing mechanism, the top of oxidation groove is provided with the second pushing mechanism that is used for promoting the movable plate, and the lateral wall of each backup pad is provided with the third pushing mechanism that is used for promoting the aluminium alloy.
Preferably, the telescopic mechanism comprises a sleeve rod fixedly connected to the lower side wall of the moving plate and symmetrically arranged, a sleeve is sleeved on the side wall of the sleeve rod, the lower end of the sleeve is fixed to the surface of the conveying belt, and a first spring is sleeved on the side wall of the sleeve.
Preferably, the first moving mechanism comprises a sliding groove formed in the upper side wall of the moving plate, the sliding groove is rotationally connected with a positive and negative double-head screw rod, threaded portions of the positive and negative double-head screw rod are in threaded connection with two symmetrically arranged sliding blocks, the supporting plate is fixed with the upper side wall of the sliding block, and one end of the positive and negative double-head screw rod is fixedly connected with a first rocking wheel.
Preferably, the first reset mechanism comprises a first connecting block fixedly connected to two symmetrical side walls of the fixed block, a first T-shaped guide rod is fixedly connected to the upper side wall of the first connecting block, a second connecting block is sleeved on the side wall of the first T-shaped guide rod and fixed to the side wall of the movable block, a second spring is sleeved on the side wall of the first T-shaped guide rod, and two ends of the second spring are fixed to the side walls of the first connecting block and the second connecting block respectively.
Preferably, the first pushing mechanism comprises a pushing plate fixedly connected to the side wall of the moving block, the pushing plate comprises a first inclined surface and a limiting surface, the top of the oxidation groove is fixedly connected with a support, the other end of the support is fixedly connected with a threaded sleeve, the threaded sleeve is internally threaded with two symmetrically arranged first threaded rods, and the other end of each first threaded rod is fixedly connected with a pushing pin.
Preferably, the second pushing mechanism comprises an L-shaped plate fixedly connected to the top of the oxidation tank and arranged in a plurality of arrays, and the lower side wall of the L-shaped plate is fixedly connected with a bump.
Preferably, the conveying mechanism comprises a fixed plate fixedly connected to the top of the oxidation tank and symmetrically arranged, the side wall of the fixed plate is rotationally connected with two conveying rollers symmetrically arranged through a rotating shaft, one of the conveying rollers is fixedly connected with a motor on the side wall of the fixed plate, and the output end of the motor is fixed with one end of the rotating shaft.
Preferably, the third pushing mechanism comprises a pushing block arranged in a plurality of arrays inside the oxidation tank, the pushing block comprises a second inclined plane, a second moving mechanism for driving the pushing block to move is arranged on the side wall of the oxidation tank, a baffle is connected to the side wall of each supporting plate through a second reset mechanism, and a fixing rod is fixedly connected to the side wall of the baffle.
Preferably, the second moving mechanism comprises a guide rod fixedly connected to the side wall of the oxidation tank, a sliding plate is sleeved on the side wall of the guide rod, a second threaded rod is connected to the side wall of the sliding plate in a threaded mode, one end of the second threaded rod is rotationally connected with the side wall of the oxidation tank, a second rocking wheel is fixedly connected to the other end of the second threaded rod, a plurality of moving rods arranged in an array are fixedly connected to the side wall of the sliding plate, and the other end of the moving rod penetrates through the side wall of the oxidation tank and is fixed to the side wall of the pushing block.
Preferably, the second reset mechanism comprises a second T-shaped guide rod which is inserted into two symmetrical side walls of the baffle, one end of the second T-shaped guide rod is fixed with the side walls of the support plate, a third spring is sleeved on the side walls of the second T-shaped guide rod, and two ends of the third spring are respectively fixed with the baffle and the side walls of the support plate.
Compared with the prior art, the invention has the beneficial effects that:
this kind of efficient aluminium alloy surface oxidation equipment through setting up conveying mechanism etc. can realize the automatic continuous cycle oxidation treatment to the aluminium alloy, simultaneously, can carry out self-holding and loosen the aluminium alloy, has improved the efficiency of aluminium alloy oxidation treatment, and can make the aluminium alloy reciprocate in oxidation process from top to bottom and the reciprocating motion in the horizontal direction, increase electrolyte flows, make it more abundant with electrolyte contact, simultaneously, guarantee to press from both sides tight position also can fully contact with the electrolyte for the oxidation is more even, improves the efficiency and the effect of oxidation treatment.
Drawings
FIG. 1 is a schematic diagram of the overall structure of the present invention;
FIG. 2 is a schematic view of the overall structure of another view of the present invention;
FIG. 3 is an enlarged schematic view of the structure shown at A in FIG. 1;
FIG. 4 is an enlarged schematic view of the structure at B in FIG. 1;
FIG. 5 is an enlarged schematic view of FIG. 2 at C;
fig. 6 is an enlarged schematic view of the structure at D in fig. 3.
In the figure: 1. an oxidation tank; 201. a fixing plate; 202. a conveying roller; 203. a motor; 301. a sleeve; 302. a loop bar; 303. a first spring; 401. a sliding groove; 402. front and back teeth double-head screw rod; 403. a sliding block; 404. a first rocking wheel; 501. a first connection block; 502. a first T-shaped guide bar; 503. a second connection block; 504. a second spring; 601. an L-shaped plate; 602. a bump; 701. a pushing block; 702. a second inclined surface; 703. a baffle; 704. a fixed rod; 801. a second T-shaped guide bar; 802. a third spring; 901. a guide rod; 902. a sliding plate; 903. a second threaded rod; 904. a second rocking wheel; 905. a moving rod; 1001. a pushing plate; 1002. a first inclined surface; 1003. a limiting surface; 1004. a bracket; 1005. a thread sleeve; 1006. a first threaded rod; 1007. pushing the pin; 11. a moving plate; 12. a support plate; 13. a moving block; 14. a fixed block; 15. a protective pad; 16. a conveyor belt; 17. a mechanical gripper.
Detailed Description
The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
Referring to fig. 1-6, the present invention provides a technical solution: the high-efficiency aluminum profile surface oxidation equipment comprises an oxidation tank 1 and a mechanical gripper 17, wherein the top of the oxidation tank 1 is connected with a conveying belt 16 through a conveying mechanism, and a plurality of clamping mechanisms for clamping and fixing aluminum profiles are arranged on the surface of the conveying belt 16;
each fixture includes movable plate 11, and movable plate 11 is connected with the surface of conveyer belt 16 through telescopic machanism, the upper side wall of movable plate 11 is connected with the backup pad 12 that two symmetries set up through first movable mechanism, and the upper side wall fixedly connected with of each backup pad 12 is used for carrying out the V type piece group of centre gripping to the aluminium alloy, V type piece group includes fixed block 14 and movable block 13, the equal fixedly connected with protection pad 15 of the lateral wall that fixed block 14 and movable block 13 are relative, and fixed block 14 is fixed with the upper side wall of backup pad 12, movable block 13 is connected with the lateral wall of fixed block 14 through first canceling release mechanism, and the removal of movable block 13 promotes through first pushing mechanism, the top of oxidation tank 1 is provided with the second pushing mechanism that is used for promoting movable plate 11, and the lateral wall of each backup pad 12 is provided with the third pushing mechanism that is used for promoting the aluminium alloy, can realize the aluminium alloy automatic continuous cycle oxidation treatment of aluminium alloy, simultaneously, can carry out automatic clamp and loosen the aluminium alloy oxidation treatment's efficiency, and, can make the aluminium alloy carry out reciprocating movement and horizontal direction, the electrolyte that moves about in oxidation process, the contact with the electrolyte, the electrolyte is more fully increased, and the contact effect is guaranteed.
The telescopic mechanism comprises a sleeve rod 302 fixedly connected to the lower side wall of the moving plate 11 and symmetrically arranged, a sleeve 301 is sleeved on the side wall of the sleeve rod 302, the lower end of the sleeve 301 is fixed to the surface of the conveying belt 16, a first spring 303 is sleeved on the side wall of the sleeve 301, and the moving plate 11 is guided and reset.
The first moving mechanism comprises a sliding groove 401 formed in the upper side wall of the moving plate 11, the sliding groove 401 is rotationally connected with a positive and negative double-headed screw 402, threaded portions of the positive and negative double-headed screw 402 are in threaded connection with two symmetrically arranged sliding blocks 403, the supporting plates 12 are fixed to the upper side wall of the sliding blocks 403, one end of the positive and negative double-headed screw 402 is fixedly connected with a first rocking wheel 404, the distance between the two supporting plates 12 is convenient to adjust, and aluminum profiles with different lengths are convenient to clamp.
The first reset mechanism comprises a first connecting block 501 fixedly connected to two symmetrical side walls of a fixed block 14, a first T-shaped guide rod 502 is fixedly connected to the upper side wall of the first connecting block 501, a second connecting block 503 is sleeved on the side wall of the first T-shaped guide rod 502, the second connecting block 503 is fixed to the side wall of a moving block 13, a second spring 504 is sleeved on the side wall of the first T-shaped guide rod 502, and two ends of the second spring 504 are respectively fixed to the side walls of the first connecting block 501 and the second connecting block 503, so that guiding and resetting functions are achieved on movement of the moving block 13.
The first pushing mechanism comprises a pushing plate 1001 fixedly connected to the side wall of the moving block 13, the pushing plate 1001 comprises a first inclined surface 1002 and a limiting surface 1003, the top of the oxidation tank 1 is fixedly connected with a support 1004, the other end of the support 1004 is fixedly connected with a thread sleeve 1005, two symmetrically arranged first threaded rods 1006 are connected with each thread sleeve 1005 in an internal thread mode, pushing pins 1007 are fixedly connected to the other ends of the first threaded rods 1006, when the first inclined surface 1002 abuts against the pushing pins 1007 and slides from the first inclined surface 1002 to the limiting surface 1003, at the moment, the moving block 13 is pushed to move upwards, meanwhile, the second springs 504 are stretched, the position of the pushing pins 1007 can be conveniently adjusted according to the position of the supporting plate 12, and the pushing pins 1007 can be guaranteed to slide on the first inclined surface 1002 all the time.
The second pushing mechanism comprises an L-shaped plate 601 fixedly connected to the top of the oxidation tank 1 and arranged in a plurality of arrays, a lug 602 is fixedly connected to the lower side wall of the L-shaped plate 601, when the movable plate 11 is propped against the lug 602, the movable plate 11 is pushed to move downwards, meanwhile, the first spring 303 is stretched, when the movable plate 11 moves downwards, the aluminum profile is driven to move downwards synchronously, when the movable plate 11 passes over the lug 602, the movable plate 11 and the aluminum profile can move upwards to reset under the action of the first spring 303, and the movable plate 11 can reciprocate up and down during oxidation.
The conveying mechanism comprises a plurality of symmetrically arranged fixing plates 201 fixedly connected to the top of the oxidation tank 1, two symmetrically arranged conveying rollers 202 are rotatably connected to the side walls of the fixing plates 201 through rotating shafts, a motor 203 is fixedly connected to the side wall of one fixing plate 201, the output end of the motor 203 is fixed to one end of the rotating shaft, the motor 203 is started, the rotation of the motor 203 drives the conveying rollers 202 to rotate, and then the conveying belt 16 and the clamping mechanisms are driven to convey.
The third pushing mechanism comprises a pushing block 701 arranged in a plurality of arrays in the oxidation tank 1, the pushing block 701 comprises a second inclined plane 702, a second moving mechanism for driving the pushing block 701 to move is arranged on the side wall of the oxidation tank 1, a baffle 703 is connected to the side wall of each supporting plate 12 through a second reset mechanism, a fixing rod 704 is fixedly connected to the side wall of the baffle 703, when the fixing rod 704 abuts against the second inclined plane 702, the baffle 703 is pushed to move, meanwhile, the third spring 802 on the side is compressed, the third spring 802 on the other side is stretched, when the baffle 703 moves, the aluminum profile can be pushed to move in a direction far away from the pushing block 701, and when the fixing rod 704 passes over the pushing block 701, the baffle 703 moves to reset under the action of the third spring 802, so that the aluminum profile can be pushed to move to reset in a direction close to the pushing block 701.
The second moving mechanism comprises a guide rod 901 fixedly connected to the side wall of the oxidation tank 1, a sliding plate 902 is sleeved on the side wall of the guide rod 901, a second threaded rod 903 is connected to the side wall of the sliding plate 902 in a threaded mode, one end of the second threaded rod 903 is rotationally connected to the side wall of the oxidation tank 1, a second rocking wheel 904 is fixedly connected to the other end of the second threaded rod 903, a plurality of moving rods 905 are fixedly connected to the side wall of the sliding plate 902 in an array mode, the other end of the moving rods 905 penetrate through the side wall of the oxidation tank 1 and are fixed to the side wall of the pushing block 701, the second rocking wheel 904 is rotated, the second rocking wheel 904 rotates to drive the sliding plate 902 to move, the moving rods 905 and the pushing block 701 are driven to move, and the position of the pushing block 701 is adjusted according to the position of the supporting plate 12 conveniently, and the fixed rods 704 can always slide on the second inclined surface 702.
The second reset mechanism comprises a second T-shaped guide rod 801 which is inserted into two symmetrical side walls of the baffle 703, one end of the second T-shaped guide rod 801 is fixed with the side wall of the support plate 12, a third spring 802 is sleeved on the side wall of the second T-shaped guide rod 801, two ends of the third spring 802 are respectively fixed with the baffle 703 and the side wall of the support plate 12, and the movement of the baffle 703 is guided and reset.
Working principle: when oxidation is carried out, firstly, a conveying belt 16 and a plurality of clamping mechanisms are driven by a conveying mechanism to convey, when a first inclined plane 1002 is propped against a pushing pin 1007 and slides to a limiting surface 1003 from the first inclined plane 1002, at the moment, a moving block 13 is pushed to move upwards, meanwhile, a second spring 504 is stretched, at the moment, an aluminum profile is clamped by a mechanical gripper 17 and then is placed between two protection pads 15, two ends of the aluminum profile are contacted with a baffle 703, when the first inclined plane 1002 passes over the limiting surface 1003, the moving block 13 moves upwards under the action of a second spring 504 and automatically clamps the aluminum profile;
along with the conveying of the conveying belt 16, the clamped aluminum profile is conveyed into the oxidation tank 1 for oxidation, after the oxidation is completed, the oxidized aluminum profile is discharged from the oxidation tank 1, when the first inclined plane 1002 is propped against the pushing pin 1007 again, the oxidized aluminum profile can be loosened, and the oxidized aluminum profile is taken out and then put into the unoxidized aluminum profile through the mechanical gripper 17, so that the aluminum profile can be subjected to automatic continuous cyclic oxidation treatment, and the aluminum profile can be automatically clamped and loosened, so that the efficiency of the oxidation treatment of the aluminum profile is improved;
meanwhile, when the movable plate 11 is propped against the convex blocks 602, the movable plate 11 is pushed to move downwards, meanwhile, the first spring 303 is stretched, when the movable plate 11 moves downwards, the aluminum profile is driven to move downwards synchronously, when the movable plate 11 passes over the convex blocks 602, the movable plate 11 and the aluminum profile can move upwards and reset under the action of the first spring 303, and the movable plate 11 can reciprocate up and down during oxidation, so that the flow of electrolyte is increased, the electrolyte is contacted with the electrolyte more fully, the oxidation is more uniform, and the efficiency and effect of oxidation treatment are improved;
moreover, when the fixed rod 704 is propped against the second inclined plane 702, the baffle 703 is pushed to move, meanwhile, the third spring 802 on the side is compressed, the third spring 802 on the other side is stretched, when the baffle 703 is moved, the aluminum profile can be pushed to move away from the pushing block 701, when the fixed rod 704 passes over the pushing block 701, the baffle 703 is moved to reset under the action of the third spring 802, so that the aluminum profile can be pushed to move towards the direction close to the pushing block 701 to reset, and the aluminum profile can be reciprocated on the surface of the protective pad 15 in the oxidation process, so that the clamping position can be fully contacted with electrolyte, the oxidation is more uniform, and the oxidation treatment efficiency and effect are improved.
Claims (10)
1. The utility model provides an efficient aluminium alloy surface oxidation equipment, includes oxidation tank (1) and mechanical tongs (17), its characterized in that: the top of the oxidation tank (1) is connected with a conveying belt (16) through a conveying mechanism, and a plurality of clamping mechanisms for clamping and fixing the aluminum profile are arranged on the surface of the conveying belt (16);
each fixture includes movable plate (11), and movable plate (11) are connected with the surface of conveyer belt (16) through telescopic machanism, the last lateral wall of movable plate (11) is connected with backup pad (12) that two symmetries set up through first movable mechanism, and the last lateral wall fixedly connected with of each backup pad (12) is used for carrying out the V type piece group of centre gripping to aluminium alloy, V type piece group includes fixed block (14) and movable block (13), the equal fixedly connected with protection pad (15) of lateral wall that fixed block (14) and movable block (13) are relative, and fixed block (14) are fixed with the last lateral wall of backup pad (12), movable block (13) are connected with the lateral wall of fixed block (14) through first canceling release mechanical system, and the removal of movable block (13) promotes through first pushing mechanism, the top of oxidation groove (1) is provided with the second pushing mechanism that is used for promoting movable plate (11), and the lateral wall of each backup pad (12) is provided with the third pushing mechanism that is used for promoting the aluminium alloy.
2. The efficient aluminum profile surface oxidation device according to claim 1, wherein: the telescopic mechanism comprises a sleeve rod (302) fixedly connected to the lower side wall of the moving plate (11) and symmetrically arranged, a sleeve (301) is sleeved on the side wall of the sleeve rod (302), the lower end of the sleeve (301) is fixed to the surface of the conveying belt (16), and a first spring (303) is sleeved on the side wall of the sleeve (301).
3. The efficient aluminum profile surface oxidation device according to claim 1, wherein: the first moving mechanism comprises a sliding groove (401) formed in the upper side wall of the moving plate (11), a positive and negative double-head screw rod (402) is rotationally connected to the sliding groove (401), two symmetrically arranged sliding blocks (403) are connected to the threaded portions of the positive and negative double-head screw rod (402) in a threaded mode, the supporting plate (12) is fixed to the upper side wall of the sliding block (403), and a first rocking wheel (404) is fixedly connected to one end of the positive and negative double-head screw rod (402).
4. The efficient aluminum profile surface oxidation device according to claim 1, wherein: the first reset mechanism comprises a first connecting block (501) fixedly connected to two symmetrical side walls of a fixed block (14), a first T-shaped guide rod (502) is fixedly connected to the upper side wall of the first connecting block (501), a second connecting block (503) is sleeved on the side wall of the first T-shaped guide rod (502), the second connecting block (503) is fixed to the side wall of a moving block (13), a second spring (504) is sleeved on the side wall of the first T-shaped guide rod (502), and two ends of the second spring (504) are fixed to the side walls of the first connecting block (501) and the second connecting block (503) respectively.
5. The efficient aluminum profile surface oxidation device according to claim 1, wherein: the first pushing mechanism comprises a pushing plate (1001) fixedly connected to the side wall of the moving block (13), the pushing plate (1001) comprises a first inclined surface (1002) and a limiting surface (1003), the top of the oxidation tank (1) is fixedly connected with a support (1004), the other end of the support (1004) is fixedly connected with a threaded sleeve (1005), the threads of the threaded sleeve (1005) are connected with two symmetrically arranged first threaded rods (1006), and the other end of each first threaded rod (1006) is fixedly connected with a pushing pin (1007).
6. The efficient aluminum profile surface oxidation device according to claim 1, wherein: the second pushing mechanism comprises an L-shaped plate (601) fixedly connected to the top of the oxidation tank (1) and arranged in a plurality of arrays, and a bump (602) is fixedly connected to the lower side wall of the L-shaped plate (601).
7. The efficient aluminum profile surface oxidation device according to claim 1, wherein: conveying mechanism includes fixed connection at fixed plate (201) that a plurality of symmetries set up in oxidation groove (1) top, and the lateral wall of fixed plate (201) is connected with two conveying rollers (202) that the symmetry set up through the pivot rotation, one of them lateral wall fixedly connected with motor (203) of fixed plate (201), and the output of motor (203) is fixed with the one end of pivot.
8. The efficient aluminum profile surface oxidation device according to claim 1, wherein: the third pushing mechanism comprises pushing blocks (701) arranged in a plurality of arrays inside the oxidation tank (1), the pushing blocks (701) comprise second inclined planes (702), second moving mechanisms used for driving the pushing blocks (701) to move are arranged on the side walls of the oxidation tank (1), baffle plates (703) are connected to the side walls of the supporting plates (12) through second reset mechanisms, and fixing rods (704) are fixedly connected to the side walls of the baffle plates (703).
9. The efficient aluminum profile surface oxidation device as claimed in claim 8, wherein: the second moving mechanism comprises a guide rod (901) fixedly connected to the side wall of the oxidation tank (1), a sliding plate (902) is sleeved on the side wall of the guide rod (901), a second threaded rod (903) is connected to the side wall of the sliding plate (902) in a threaded mode, one end of the second threaded rod (903) is rotatably connected with the side wall of the oxidation tank (1), a second rocking wheel (904) is fixedly connected to the other end of the second threaded rod (903), a plurality of moving rods (905) are arranged in an array mode and fixedly connected to the side wall of the sliding plate (902), and the other end of the moving rod (905) penetrates through the side wall of the oxidation tank (1) and is fixed to the side wall of the pushing block (701).
10. The efficient aluminum profile surface oxidation device according to claim 1, wherein: the second reset mechanism comprises a second T-shaped guide rod (801) which is inserted into two symmetrical side walls of the baffle plate (703), one end of the second T-shaped guide rod (801) is fixed with the side wall of the supporting plate (12), a third spring (802) is sleeved on the side wall of the second T-shaped guide rod (801), and two ends of the third spring (802) are fixed with the side walls of the baffle plate (703) and the supporting plate (12) respectively.
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CN202211455353.1A CN116024627A (en) | 2022-11-21 | 2022-11-21 | Efficient aluminium alloy surface oxidation equipment |
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CN202211455353.1A CN116024627A (en) | 2022-11-21 | 2022-11-21 | Efficient aluminium alloy surface oxidation equipment |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN116536657A (en) * | 2023-06-16 | 2023-08-04 | 佛山市南海畅派五金制品有限公司 | Aluminum profile oxidation processing system |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN116536657A (en) * | 2023-06-16 | 2023-08-04 | 佛山市南海畅派五金制品有限公司 | Aluminum profile oxidation processing system |
CN116536657B (en) * | 2023-06-16 | 2024-01-05 | 佛山市南海畅派五金制品有限公司 | Aluminum profile oxidation processing system |
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