CN113355711A - Aluminum-magnesium alloy processing is with anodic oxidation surface treatment device - Google Patents

Abstract

The invention discloses an anodic oxidation surface treatment device for aluminum magnesium alloy processing, which comprises an electrolytic bath, a motor, a ratchet wheel assembly and a chain, wherein the inner wall of the electrolytic bath is in shaft connection with a guide pillar, a fluted disc is sleeved on the guide pillar, a movable groove is formed in the inner wall of the electrolytic bath, a movable column is arranged in the movable groove, a clamping plate is fixed on the outer side of the movable column, a telescopic rod is embedded and installed on the outer side of the clamping plate, the motor is fixed on the top edge of the electrolytic bath through a bolt, a support is fixed at the upper end of the electrolytic bath, and the bottom of a toothed roller penetrates through the support and is connected with a mounting shaft. This aluminium magnesium alloy processing is with anodic oxidation surface treatment device through the contact position of automatic adjustment aluminium magnesium alloy board, realizes carrying out comprehensive contact electrolysis to it, clears up aluminium magnesium alloy board surface before the electrolysis simultaneously, avoids the dust to pile up the influence electrolysis effect, and the positive and negative commentaries on classics of whole accessible single motor realizes the energy saving.

Description

Aluminum-magnesium alloy processing is with anodic oxidation surface treatment device

Technical Field

The invention relates to the technical field of aluminum magnesium alloy processing, in particular to an anodic oxidation surface treatment device for aluminum magnesium alloy processing.

Background

The aluminum-magnesium alloy is an aluminum alloy which takes magnesium as a main additive element, has the advantages of high strength, small density, good heat dissipation and the like, is widely applied to the fields of electronics, automobiles, aerospace and the like, and adopts an anodic oxidation surface treatment device as a conventional means for generally carrying out electrolytic operation on the surface of the aluminum-magnesium alloy in the production and processing process of the aluminum-magnesium alloy in order to ensure the stability of the aluminum-magnesium alloy.

However, in the conventional anodizing surface treatment apparatus, it is inevitable to fix the aluminum magnesium alloy plate and further to generate a contact surface during the electrolysis of the aluminum magnesium alloy plate, and the conventional anodizing surface treatment apparatus is inconvenient to exchange the contact position during the electrolysis, resulting in incomplete electrolysis of the aluminum magnesium alloy plate and affected by the working environment, and impurities such as dust are easily adhered to the surface of the aluminum magnesium alloy plate before the aluminum magnesium alloy plate is taken out and electrolyzed, and the conventional anodizing surface treatment apparatus is inconvenient to clean the surface of the aluminum magnesium alloy plate and directly electrolyze the plate to easily affect the electrolysis quality, for example, publication (CN 108315794B) relates to an aluminum magnesium alloy anodizing surface treatment apparatus which does not exchange the contact position and clean the surface of the aluminum magnesium alloy plate by placing and electrolyzing the aluminum magnesium alloy plate, directly affecting the electrolytic integrity of the aluminium magnesium alloy sheet.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provide an anodic oxidation surface treatment device for processing aluminum magnesium alloy.

In order to achieve the purpose, the technical scheme adopted by the invention comprises the following steps:

an anodic oxidation surface treatment device for aluminum-magnesium alloy processing comprises an electrolytic cell, a motor, a ratchet wheel assembly and a chain, wherein the inner wall of the electrolytic cell is axially connected with a guide pillar, the guide pillar is sleeved with a fluted disc, the inner wall of the electrolytic cell is provided with a movable groove, a movable column is arranged in the movable groove, the outer side of the movable column is fixed with a clamping plate, the outer side of the end part of the movable column is provided with a rack, the outer side of the clamping plate is embedded with a telescopic rod, one end of the telescopic rod is positioned in the telescopic groove, the telescopic groove is arranged at the inner side of a clamping block, the clamping block is positioned at the outer part of the clamping plate, a spring is fixed between the telescopic groove and the end part of the telescopic rod, the top edge of the electrolytic cell is fixed with the motor by a bolt, the top shaft in the electrolytic cell is connected with a gear, the upper end of the electrolytic cell is fixed with a support, and the embedded shaft in the support is connected with a cross rod, and the one end awl tooth transmission of horizontal pole is connected with the fluted roller, and the outside meshing of fluted roller has the chain moreover, the bottom of fluted roller runs through the leg joint and is connected with the installation axle, and the bottom hub connection of installation axle has the cleaning roller.

Preferably, the grip block is equiangularly distributed on the activity post, and the grip block is provided with 2 groups about the central axis symmetry of activity post to the laminating rotates between activity post and the activity groove, and the central axis is altogether between activity post and the guide pillar moreover.

Preferably, the embedded shaft of grip block is connected with the guide arm, and the cover is equipped with the connecting rod on the guide arm to articulated mutually between one end of connecting rod and the telescopic link, constitute the awl tooth transmission structure between one end of guide arm and the fluted disc moreover.

Preferably, the connecting part of the guide rod and the connecting rod is designed to be a sunken structure, 2 sunken parts are arranged on the guide rod, and the two sunken parts on the guide rod are oppositely arranged.

Preferably, one end of the clamping block is designed to be an inclined structure, and the clamping block forms an elastic sliding structure with the telescopic rod through the telescopic groove and the spring.

Preferably, the racks are distributed on the movable column at equal angles, and the racks are meshed with the gears.

Preferably, the output end of the motor is connected with a first guide ring through a ratchet assembly, one end of the first guide ring is connected with the gear, the output shaft of the motor is connected with a second guide ring through a belt, and the second guide ring is sleeved on the cross rod through the ratchet assembly.

Preferably, the first guide ring and the second guide ring are parallel to each other, and the ratchet assemblies in the first guide ring and the second guide ring are in the same direction.

Preferably, the cleaning rollers are rotatably connected with the mounting shaft, and 2 groups of the cleaning rollers are distributed at equal intervals.

Compared with the prior art, the invention has the beneficial effects that:

1) the utility model discloses a movable post, including the aluminium magnesium alloy board, be provided with grip block, spring, flexible groove and telescopic link, the grip block constitutes elastic sliding structure through between flexible groove and spring and the telescopic link, when placing into the aluminium magnesium alloy board between two grip blocks on the activity post, aluminium magnesium alloy board and the grip block contact of outer tip slope for the grip block atress slides on the telescopic link through flexible groove, and the use of cooperation spring can carry out the centre gripping to the aluminium magnesium alloy board of different specifications and fix.

2) Be provided with movable post, activity groove, rack and gear, when the gear revolve, with the rack toothing contact of angular distribution such as, can drive movable post at the activity inslot internal rotation, drive two sets of grip blocks of angular distribution such as movable post promptly and rotate, when fixing the almag board through the grip block, can realize lasting fixed, clearance and the electrolysis operation of almag board.

3) Be provided with the guide pillar, the fluted disc, guide arm and connecting rod, when the activity post was at the activity inslot internal rotation, the guide arm was followed and is rotated and be connected with the transmission of fluted disc awl tooth, make the guide arm can synchronous horizontal rotation, be two sunk structures with the junction of connecting rod on the guide arm, make the guide arm when horizontal rotation, can drive two crisscross reciprocal slides of connecting rod that distribute from top to bottom, and then drive two crisscross reciprocal slides of telescopic link that distribute from top to bottom through the connecting rod, drive the crisscross reciprocal slide of grip block promptly, through the contact position who changes and almag board, carry out omnidirectional electrolysis operation to it.

4) The utility model discloses a fixed aluminium magnesium alloy plate, be provided with motor, first lead ring and ratchet subassembly, when the motor reverse rotation, receive ratchet subassembly's influence, the reverse rotation can be followed to first lead ring on the motor this moment for first lead ring can drive the reverse rotation of gear, and then can drive the forward rotation of activity post through the gear, carries out electrolysis operation in rotating the aluminium magnesium alloy plate of fixing to the electrolysis trough automatically.

5) Be provided with the motor, the ratchet subassembly in second guide ring and its, the ratchet subassembly in the second guide ring is the same with the ratchet subassembly orientation in the first guide ring, when motor reverse rotation promptly, first guide ring rotates, when the second guide ring receives belt drive, can not drive the rotation of horizontal pole, below aluminum magnesium alloy board is at the electrolysis in-process, when the motor forward rotates, first guide ring can not rotate this moment, the second guide ring can drive the rotation of horizontal pole when receiving belt drive, the rotation of driving the fluted roller through the horizontal pole, under the drive effect of chain, drive two sets of installation axles and the synchronous rotation of cleaning roller, the surface to top aluminum magnesium alloy board is cleared up.

6) The aluminum magnesium alloy plate after the cleaning is completed above the electrolytic bath is driven to rotate to enter the electrolytic bath for electrolysis operation, the cleaning roller can rotate on the installation shaft under stress, the activity of the aluminum magnesium alloy plate cannot be influenced, and meanwhile under the action of gravity, the cleaning roller can return to the original position to clean the next aluminum magnesium alloy plate.

Drawings

FIG. 1 is a schematic front sectional view of an anodizing surface treatment device for aluminum magnesium alloy processing according to the present invention;

FIG. 2 is an enlarged schematic view of the part A of the anodic oxidation surface treatment device for aluminum magnesium alloy processing of the present invention;

FIG. 3 is a schematic side sectional view of a first guide ring of the anodic oxidation surface treatment device for aluminum magnesium alloy processing according to the present invention;

FIG. 4 is a schematic side sectional view of a second guide ring of the anodic oxidation surface treatment device for aluminum magnesium alloy processing according to the present invention;

FIG. 5 is a schematic view of the arrangement of a tooth roll of the anodic oxidation surface treatment device for aluminum magnesium alloy processing according to the present invention in a plan view;

FIG. 6 is a schematic view showing the distribution of the side of a holding plate of an anodizing surface treatment apparatus for aluminum-magnesium alloy working according to the present invention.

In the figure: 1. an electrolytic cell; 2. a guide post; 3. a fluted disc; 4. a movable groove; 5. a movable post; 6. a clamping plate; 7. a guide bar; 8. a connecting rod; 9. a telescopic rod; 10. a telescopic groove; 11. a clamping block; 12. a spring; 13. a rack; 14. a gear; 15. a motor; 16. a ratchet assembly; 17. a first guide ring; 18. a belt; 19. a second guide ring; 20. a cross bar; 21. a support; 22. a toothed roller; 23. a chain; 24. installing a shaft; 25. and cleaning the roller.

Detailed Description

For the convenience of understanding of those skilled in the art, the technical solution of the present invention will be further described in detail with reference to fig. 1 to 6.

Example one

An anodic oxidation surface treatment device for processing aluminum-magnesium alloy comprises an electrolytic cell 1, a motor 15, a ratchet wheel assembly 16 and a chain 23, wherein the inner wall of the electrolytic cell 1 is axially connected with a guide pillar 2, the guide pillar 2 is sleeved with a fluted disc 3, the inner wall of the electrolytic cell 1 is provided with a movable groove 4, a movable column 5 is arranged in the movable groove 4, the outer side of the movable column 5 is fixed with a clamping plate 6, the outer side of the end part of the movable column 5 is provided with a rack 13, the outer side of the clamping plate 6 is embedded with a telescopic rod 9, one end of the telescopic rod 9 is positioned in a telescopic groove 10, the telescopic groove 10 is arranged at the inner side of a clamping block 11, the clamping block 11 is positioned at the outer part of the clamping plate 6, meanwhile, a spring 12 is fixed between the telescopic groove 10 and the end part of the telescopic rod 9, the top edge of the electrolytic cell 1 is fixed with the motor 15 by bolts, and the top shaft inside the electrolytic cell 1 is connected with a gear 14, a support 21 is fixed at the upper end of the electrolytic cell 1, the embedded shaft in the support 21 is connected with a cross rod 20, one end of the cross rod 20 is in bevel gear transmission connection with a toothed roller 22, the outer side of the toothed roller 22 is meshed with a chain 23, the bottom of the toothed roller 22 penetrates through the support 21 and is connected with a mounting shaft 24, and the bottom shaft of the mounting shaft 24 is connected with a cleaning roller 25;

the clamping plates 6 are distributed on the movable column 5 at equal angles, 2 groups of the clamping plates 6 are symmetrically arranged about the central axis of the movable column 5, the movable column 5 and the movable groove 4 are attached to rotate, the central axis is shared between the movable column 5 and the guide pillar 2, a guide rod 7 is embedded in the clamping plates 6, a connecting rod 8 is sleeved on the guide rod 7, one end of the connecting rod 8 is hinged to a telescopic rod 9, a bevel gear transmission structure is formed between one end of the guide rod 7 and the fluted disc 3, the connecting part of the guide rod 7 and the connecting rod 8 is designed to be a concave structure, 2 concave parts are arranged on the guide rod 7, two concave parts on the guide rod 7 are oppositely arranged, one end of the clamping block 11 is designed to be an inclined structure, and the clamping block 11 forms an elastic sliding structure through the telescopic groove 10 and the spring 12 and the telescopic rod 9;

when the aluminum magnesium alloy plate is put between the two clamping blocks 11 and connected with the inclined ends thereof, the clamping blocks 11 are stressed to slide to the telescopic rods 9 through the telescopic grooves 10, and the aluminum magnesium alloy plate is clamped and fixed by matching with the elastic force of the springs 12, then the movable columns 5 rotate around the guide pillars 2 in the movable grooves 4, the clamped aluminum magnesium alloy plate is rotated into the bottom of the electrolytic bath 1 to carry out electrolysis operation, when the clamping plates 6 rotate along with the movable columns 5, the guide rods 7 in the clamping plates are in transmission connection with the conical teeth of the fluted disc 3, so that the guide rods 7 can rotate along with the transverse direction, the connecting rods 8 can drive the telescopic rods 9 to reciprocate by matching with the concave parts of the guide rods 7 and the use of the connecting rods 8, the connecting rods 8 which are distributed relatively up and down can drive the upper and lower groups of telescopic rods 9 to reciprocate in a staggered manner, namely drive the upper and lower groups of clamping blocks 11 to reciprocate in a staggered manner, and fixedly clamp the aluminum magnesium alloy plate, the aluminum magnesium alloy plate is subjected to all-dimensional contact electrolysis by changing the contact position with the aluminum magnesium alloy plate.

Example two

The same features of this embodiment as those of the first embodiment are not described again, and the different features of this embodiment from those of the first embodiment are that in this embodiment, the cleaning roller 25 is rotatably connected to the mounting shaft 24, and 2 groups of the cleaning rollers 25 are distributed at equal intervals;

the fluted roller 22 on the 2 groups of cleaning rollers 25 carries out synchronous rotation through the transmission of chain 23, make horizontal pole 20 in the support 21 when rotating, can contact with first fluted roller 22 meshing, drive 2 groups of fluted rollers 22 synchronous rotation, and then drive 2 groups of installation axles 24 and cleaning roller 25 synchronous rotation, carry out two-sided clearance to the aluminium magnesium alloy board that the top is not electrolyzed, cleaning roller 25 can rotate along the activity direction of aluminium magnesium alloy board on installation axle 24 simultaneously, make when rotating the aluminium magnesium alloy board after will clearing up to electrolysis trough 1 in, cleaning roller 25 can not influence the short activity of aluminium magnesium alloy board, and can return the normal position through gravity, carry out the clearance work of next time.

EXAMPLE III

In the present embodiment, when the gear 14 rotates under a force, the movable column 5 is driven to rotate stably in the movable groove 4 by the meshing contact between the gear 14 and the rack 13;

in the arrangement, when the motor 15 rotates reversely, under the influence of the ratchet assembly 16, the first guide ring 17 on the motor 15 rotates reversely, so that the first guide ring 17 can drive the gear 14 to rotate reversely, the gear 14 can drive the movable column 5 to rotate forwardly, and simultaneously, when the motor 15 rotates reversely, the belt 18 drives the second guide ring 19 to rotate reversely, under the action of the ratchet assembly 16 in the second guide ring 19, at this moment, the second guide ring 19 cannot drive the cross rod 20 to rotate, on the contrary, when the motor 15 rotates forwards, the first guide ring 17 cannot rotate, but the second guide ring 19 rotating forwards can drive the cross rod 20 to rotate through the ratchet assembly 16, so that the cross rod 20 can drive the support 21 to rotate through the internal gear roller 22, under the transmission action of the chain 23, the 2 groups of mounting shafts 24 and the cleaning roller 25 are driven to rotate synchronously, the surface cleaning work is carried out on the aluminum-magnesium alloy plate which is fixed above but is not electrolyzed, and the whole process can be realized through the forward and reverse rotation of the single motor 15.

An almag processing is with anodic oxidation surface treatment device, working process as follows: firstly, an aluminum-magnesium alloy plate is placed between two clamping blocks 11 and connected with the inclined ends of the clamping blocks, so that the clamping blocks 11 are stressed to slide towards a telescopic rod 9 through a telescopic groove 10, the aluminum-magnesium alloy plate is clamped and fixed by matching with the elastic force of a spring 12, then a motor 15 is driven reversely and is influenced by a ratchet wheel assembly 16, at the moment, a first guide ring 17 on the motor 15 rotates reversely, so that the first guide ring 17 can drive a gear 14 to rotate reversely, further, the gear 14 can drive a movable column 5 to rotate forwardly, the movable column 5 rotates around a guide column 2 in a movable groove 4, the clamped aluminum-magnesium alloy plate rotates into the bottom of an electrolytic cell 1 to carry out electrolytic operation, when the clamping plate 6 rotates along with the movable column 5, a guide rod 7 in the clamping plate is in transmission connection with conical teeth of a fluted disc 3, so that the guide rod 7 can rotate transversely, and the concave part of the guide rod 7 and a connecting rod 8 are matched, so that the connecting rod 8 can drive the telescopic rods 9 to reciprocate, the connecting rods 8 which are relatively distributed up and down can drive the upper and lower groups of telescopic rods 9 to reciprocate in a staggered manner, namely, the upper and lower groups of clamping blocks 11 to reciprocate in a staggered manner are driven, the aluminum magnesium alloy plate is subjected to omnibearing contact electrolysis by changing the contact position with the aluminum magnesium alloy plate while being fixedly clamped, then the aluminum magnesium alloy plate is sequentially clamped between the clamping plates 6 which are distributed at equal angles, in the electrolysis process of the aluminum magnesium alloy plate fixed below, the motor 15 is driven in a forward direction, the first guide ring 17 cannot rotate, but the second guide ring 19 which rotates in the forward direction can drive the transverse rod 20 to rotate through the ratchet wheel assembly 16, the rotation of the internal gear roller 22 of the bracket 21 is conveniently driven through the transverse rod 20, and under the transmission action of the chain 23, the 2 groups of mounting shafts 24 and the cleaning roller 25 are driven to synchronously rotate, the aluminum magnesium alloy plate which is fixed above but not electrolyzed is subjected to surface cleaning work, the whole process can be realized through the forward and reverse rotation of the single motor 15, and meanwhile, the cleaning roller 25 can rotate on the mounting shaft 24 along the moving direction of the aluminum magnesium alloy plate, so that when the cleaned aluminum magnesium alloy plate is rotated into the electrolytic bath 1, the cleaning roller 25 cannot influence the short movement of the aluminum magnesium alloy plate, and can return to the original position through gravity to perform the next cleaning work.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the present invention as defined in the accompanying claims.

Claims (9)

1. The utility model provides an almag processing is with anodic oxidation surface treatment device, includes electrolysis trough (1), motor (15), ratchet subassembly (16) and chain (23), its characterized in that: the inner wall of the electrolytic cell (1) is in shaft connection with a guide post (2), the guide post (2) is sleeved with a fluted disc (3), the inner wall of the electrolytic cell (1) is provided with a movable groove (4), a movable column (5) is placed in the movable groove (4), the outer side of the movable column (5) is fixed with a clamping plate (6), the outer side of the end part of the movable column (5) is provided with a rack (13), the outer side of the clamping plate (6) is embedded with a telescopic rod (9), one end of the telescopic rod (9) is positioned in a telescopic groove (10), the telescopic groove (10) is arranged at the inner side of a clamping block (11), the clamping block (11) is positioned at the outer part of the clamping plate (6), a spring (12) is fixed between the telescopic groove (10) and the end part of the telescopic rod (9), and a motor (15) is fixed at the top edge of the electrolytic cell (1) through bolts, and the inside apical axis of electrolysis trough (1) is connected with gear (14), electrolysis trough (1) upper end is fixed with support (21), and the embedded hub connection of support (21) has horizontal pole (20) to the one end awl tooth transmission of horizontal pole (20) is connected with fluted roller (22), and the outside meshing of fluted roller (22) has chain (23) moreover, the bottom of fluted roller (22) is run through support (21) and is connected with installation axle (24), and the bottom hub connection of installation axle (24) has cleaning roller (25).

2. The anodic oxidation surface treatment apparatus for aluminum magnesium alloy working according to claim 1, characterized in that: the clamping plate (6) is distributed on the movable column (5) at equal angles, 2 groups of the clamping plate (6) are symmetrically arranged about the central axis of the movable column (5), the movable column (5) and the movable groove (4) are attached to each other and rotate, and the movable column (5) and the guide column (2) share the same central axis.

3. The anodic oxidation surface treatment apparatus for aluminum magnesium alloy working according to claim 1, characterized in that: the embedded shaft of grip block (6) is connected with guide arm (7), and the cover is equipped with connecting rod (8) on guide arm (7), and articulated mutually between the one end of connecting rod (8) and telescopic link (9), constitutes awl tooth transmission structure between the one end of guide arm (7) and fluted disc (3) moreover.

4. The anodic oxidation surface treatment apparatus for aluminum magnesium alloy working according to claim 1, characterized in that: the connecting part of the guide rod (7) and the connecting rod (8) is designed to be a sunken structure, 2 sunken parts are arranged on the guide rod (7), and the two sunken parts on the guide rod (7) are oppositely arranged.

5. The anodic oxidation surface treatment apparatus for aluminum magnesium alloy working according to claim 1, characterized in that: one end of the clamping block (11) is designed to be an inclined structure, and the clamping block (11) forms an elastic sliding structure with the telescopic rod (9) through the telescopic groove (10) and the spring (12).

6. The anodic oxidation surface treatment apparatus for aluminum magnesium alloy working according to claim 1, characterized in that: the racks (13) are distributed on the movable column (5) at equal angles, and the racks (13) and the gears (14) are meshed with each other.

7. The anodic oxidation surface treatment apparatus for aluminum magnesium alloy working according to claim 1, characterized in that: the output end of the motor (15) is connected with a first guide ring (17) through a ratchet assembly (16), one end of the first guide ring (17) is connected with the gear (14), an output shaft of the motor (15) is connected with a second guide ring (19) through a belt (18), and the second guide ring (19) is sleeved on the cross rod (20) through the ratchet assembly (16).

8. The anodic oxidation surface treatment apparatus for aluminum magnesium alloy working according to claim 7, characterized in that: the first guide ring (17) and the second guide ring (19) are parallel to each other, and the ratchet assemblies (16) in the first guide ring (17) and the second guide ring (19) face the same direction.

9. The anodic oxidation surface treatment apparatus for aluminum magnesium alloy working according to claim 1, characterized in that: the cleaning roller (25) is rotatably connected with the mounting shaft (24), and 2 groups of cleaning rollers (25) are distributed at equal intervals.

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