CN113930825A

CN113930825A - Aluminum alloy plate oxidation equipment convenient to take and place

Info

Publication number: CN113930825A
Application number: CN202111218735.8A
Authority: CN
Inventors: 李嘉敏; 黄存芝; 钱志明; 唐盛林; 吴和松
Original assignee: Dongguan Qunhe Hardware Products Co ltd
Current assignee: Dongguan Qunhe Hardware Products Co ltd
Priority date: 2021-10-20
Filing date: 2021-10-20
Publication date: 2022-01-14

Abstract

The invention discloses an aluminum alloy plate oxidation device convenient for taking and placing, which relates to the technical field of aluminum alloy plate production and comprises a base, wherein an oxidation reaction tank is arranged on the upper surface of the base, four connecting columns are connected on the upper surface of the oxidation reaction tank, a fixed seat is connected between the two connecting columns, servo motors are respectively arranged on the upper surfaces of the two fixed seats, the driving ends of the two servo motors are respectively connected with a first screw rod, the outer surfaces of the two first screw rods are connected with a lifting connecting frame, a fan is arranged on the upper surface of the lifting connecting frame, and a plate fixing device is connected on the lower surface of the lifting connecting frame, and a large amount of labor cost is saved.

Description

Aluminum alloy plate oxidation equipment convenient to take and place

Technical Field

The invention relates to the technical field of aluminum alloy plate production, in particular to an aluminum alloy plate oxidation device convenient to take and place.

Background

The aluminum alloy plate has a wide application range, and when the aluminum alloy plate is processed and produced, the aluminum alloy plate is oxidized during the production of the plate according to the use requirement of the aluminum alloy plate, so that an oxidation film is generated on the surface of the aluminum alloy plate, thereby enhancing the wear resistance and the corrosion resistance of the aluminum alloy, but the aluminum alloy oxidation equipment in the prior art is influenced by the size of the aluminum alloy plate, so that only a few plates can be oxidized at a time, and only a fixed clamp can be used for clamping during oxidation, when a plate with a larger size is encountered, a new clamp needs to be customized again for oxidation clamping, the plate is inconvenient to take and place after the oxidation treatment, the plate soaked in an oxidation reaction tank is difficult to take out due to the larger size of the plate, and meanwhile, the occurrence of oxidation reaction is influenced due to the insufficient flowing fusion of electrolyte in the oxidation reaction tank, so that the oxidation efficiency is low, thereby affecting the production efficiency and the oxidation effect.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the aluminum alloy plate oxidation equipment convenient to take and place, and solves the problems that the plate oxidation treatment efficiency is low, clamping tools are not matched during oxidation treatment of plates with different sizes, and the oxidized plates are difficult to take and place.

In order to achieve the purpose, the invention is realized by the following technical scheme: an aluminum alloy plate oxidation device convenient to take and place comprises a base, wherein an oxidation reaction tank is mounted on the upper surface of the base, four connecting columns are connected to the upper surface of the oxidation reaction tank, a fixed seat is connected between the two connecting columns, servo motors are mounted on the upper surfaces of the two fixed seats, the driving ends of the two servo motors are connected with first screw rods, the outer surfaces of the two first screw rods are connected with a lifting connecting frame, a fan is mounted on the upper surface of the lifting connecting frame, and a plate fixing device is connected to the lower surface of the lifting connecting frame;

the oxidation reaction tank comprises a reaction tank body, impurity adsorption plates are arranged on the inner side wall of the reaction tank body, two electrolyte stirring devices are arranged on the inner bottom side of the reaction tank body, and a fixed block is arranged on the upper surface of each impurity adsorption plate;

the plate fixing device comprises two fixing supports which are oppositely arranged, four sliding rods are connected between the fixing supports, the upper surfaces of two sides of each fixing support are connected with second screw rods, and the outer surfaces of the second screw rods are connected to the surfaces of two sides of the fixing support above in a penetrating mode.

As a further technical scheme, six groups of clamping bases are connected to the front side surface and the rear side surface of the fixed support respectively, each clamping base is L-shaped, an adjusting sliding groove is formed in the upper surface of each clamping base, a limiting spring is connected to the inner side wall of each adjusting sliding groove, one end of each limiting spring is connected with a clamping block protruding block, and a plate clamping block is connected to the upper surface of each clamping block protruding block.

As a further technical scheme, the outer surfaces of the two second screw rods are in threaded connection with adjusting nuts, the inner side walls of the two fixed supports are in threaded connection with support connecting rods, one sides of the two fixed supports are in threaded connection with limiting connecting rods, and one side faces of the two limiting connecting rods are provided with six groups of limiting grooves.

According to a further technical scheme, the surface of one side, connected with the inner side wall of the reaction tank body, of each impurity adsorption plate is connected with a plurality of adsorption plate sliding blocks, the inner side wall of the reaction tank body and the adsorption plate sliding blocks are correspondingly provided with adsorption plate sliding grooves, the upper surfaces of the fixing blocks are respectively inserted with adsorption plate fixing pins, and the upper surface of the reaction tank body and the adsorption plate fixing pins are correspondingly provided with adsorption plate pin holes.

As a further technical scheme of the present invention, the electrolyte stirring apparatus includes a driving motor, a driving end of the driving motor is connected with a connecting shaft, an outer surface of the connecting shaft is connected with a first fixing ring, an upper surface of the first fixing ring is connected with a second fixing ring, three stirring blades are annularly connected between the first fixing ring and the second fixing ring, and a lower surface of the second fixing ring is annularly connected with three fixing pins.

As a further technical scheme, fan blade bolts are connected to one ends of the three stirring fan blades, fan blade jacks are formed in the outer surfaces of the joints of the first fixing ring and the second fixing ring and the three fan blade bolts, fixing pin holes are formed in the upper surface of the first fixing ring and the three fixing pins, bolts are connected to the joints of the lower surface of the second fixing ring and the three fan blade bolts, the three bolts penetrate through the surfaces of the fan blade bolts and are inserted into the inner sides of the fan blade jacks, and rubber rings are connected to the bottom ends of the three fixing pins.

As a further technical scheme of the invention, a plurality of heating resistance tubes are arranged on the inner side of the fan, a heater is arranged on one side of the fan, the output end of the heater is connected with the plurality of heating resistance tubes, and an air outlet is arranged on the lower surface of the fan.

As a further technical scheme, threaded holes are formed in the two side surfaces of the lifting connecting frame and correspond to the two first screw rods, the bottom ends of the first screw rods are movably connected to the upper surface of the oxidation reaction tank, the positions of six groups of limiting grooves correspond to the positions of a clamping base and a plate clamping block on the surface of the fixed support, and the inner diameter of each limiting groove is larger than the distance between the clamping base and the plate clamping block.

As a further technical scheme, the four sliding rods are all fixed on the upper surface of the fixing support at the lower end, sliding holes are formed in the surface of the fixing support at the upper end corresponding to the four sliding rods, the fixing support at the upper end is connected to the outer surfaces of the four sliding rods and the two second screw rods in a sliding mode, and the second screw rods are movably connected to the upper surface of the fixing support at the lower end.

Advantageous effects

The invention provides an aluminum alloy plate oxidation device convenient to take and place. Compared with the prior art, the method has the following beneficial effects:

1. an aluminum alloy plate oxidation device convenient for taking and placing is characterized in that four connecting columns are connected with the upper surface of an oxidation reaction tank, a fixed seat is arranged between the two connecting columns, a servo motor is arranged on the upper surface of the fixed seat, the driving end of the servo motor is connected with a first screw rod, the outer surfaces of the two first screw rods are connected with a lifting connecting frame, the lower surface of the lifting connecting frame is connected with four slide rods, the bottom ends of the four slide rods are connected with a fixed support, the upper part of the fixed support is connected with a fixed support which is arranged opposite to the fixed support through the four slide rods and the two second screw rods, six groups of clamping bases are oppositely arranged on the surfaces of the two fixed supports, adjusting sliding grooves are respectively arranged on the upper surfaces of the clamping bases, the inner side walls of the adjusting sliding grooves are connected with plate clamping blocks through limiting springs, meanwhile, limiting connecting rods are respectively connected to one sides of the two fixed supports, and six groups of limiting grooves are respectively arranged on one side of the limiting connecting rods, the position of six spacing grooves is corresponding with the position of centre gripping base, can carry out fixed and oxidation treatment simultaneously to a plurality of panels when oxidation treatment panel, and can take out and put into the light oxidation reaction pond of following of panel through servo motor area drive lift link, has improved production and processing's efficiency, has practiced thrift a large amount of costs of labor.

2. The utility model provides an aluminum alloy panel oxidation equipment convenient to get and put, install two sets of electrolyte agitating unit through the bottom surface of reaction tank body, stir electrolyte, oxidation reaction accelerates, and all pass through the adsorption plate slider at the inside wall of reaction tank body, fixed block and adsorption plate fixed pin are fixed with the impurity adsorption plate, adsorb metallic impurity in the electrolyte, prevent to adsorb to the surface of panel, and three stirring fan blade passes through the flabellum bolt, first solid fixed ring and the solid fixed ring of second are connected with the connecting axle, make things convenient for the dismouting, be convenient for clear up the adnexed impurity in stirring fan blade surface of long-term use, guarantee stirring efficiency.

3. The utility model provides an aluminum alloy panel oxidation equipment convenient to get and put, has the fan through the last surface mounting at the lift link, and a plurality of heating resistor pipes are installed to the inboard of fan, and the input of heating resistor pipe is connected in the input of the heater of fan side-mounting, heats the wind that the fan produced, and the rethread hot-blast blows to the panel surface that oxidation treatment ended and dries, and the drying of panel accelerates to it is internal directly to blow in to the reaction tank with electrolyte.

Drawings

FIG. 1 is a schematic structural view of an aluminum alloy plate oxidation apparatus convenient for taking and placing;

FIG. 2 is a left side view of an aluminum alloy plate oxidation apparatus convenient for taking and placing;

FIG. 3 is a schematic structural view of a plate fixing device of an aluminum alloy plate oxidation apparatus convenient for taking and placing;

FIG. 4 is an exploded view of a support for an aluminum alloy plate oxidation apparatus for easy handling;

FIG. 5 is an enlarged view of A in FIG. 4 of an aluminum alloy plate oxidation apparatus facilitating pick and place;

FIG. 6 is a schematic view of an exploded structure of an oxidation reaction tank of an aluminum alloy plate oxidation device convenient for taking and placing;

FIG. 7 is an exploded view of an electrolyte stirring device of an aluminum alloy plate oxidation apparatus convenient for taking and placing;

FIG. 8 is a bottom view of a blower of an aluminum alloy plate oxidation apparatus for easy handling;

FIG. 9 is a sectional view A-A of FIG. 8 of an aluminum alloy sheet oxidizing apparatus for easy handling.

In the figure: 1. a base; 2. an oxidation reaction tank; 21. a reaction tank body; 22. an impurity adsorption plate; 24. an electrolyte stirring device; 241. a drive motor; 242. a connecting shaft; 243. a first retaining ring; 244. a stirring fan blade; 245. a second retaining ring; 246. a fixing pin; 247. a fan blade bolt; 248. fan blade insertion holes; 249. a fixing pin hole; 25. a fixed block; 26. an adsorption plate fixing pin; 27. an adsorption plate slider; 28. an adsorption plate pin hole; 29. an adsorption plate chute; 3. connecting columns; 4. a fixed seat; 5. a servo motor; 6. a lifting connecting frame; 7. a first screw; 8. a fan; 81. a heater; 82. an air outlet; 83. heating the resistance tube; 9. a plate fixing device; 91. fixing a bracket; 92. a slide bar; 93. a second screw; 94. adjusting the nut; 95. clamping the base; 96. a plate clamping block; 97. a limit connecting rod; 98. a limiting groove; 99. a bracket connecting rod; 901. a clamp block bump; 902. adjusting the sliding chute; 903. and a limiting spring.

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 a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-2, the present invention provides a technical solution for an aluminum alloy plate oxidation apparatus convenient for picking and placing: an aluminum alloy plate oxidation device convenient for taking and placing comprises a base 1, wherein an oxidation reaction tank 2 is arranged on the upper surface of the base 1, four connecting columns 3 are connected on the upper surface of the oxidation reaction tank 2, fixing seats 4 are connected between the two connecting columns 3, servo motors 5 are arranged on the upper surfaces of the two fixing seats 4, the driving ends of the two servo motors 5 are connected with first screw rods 7, the outer surfaces of the two first screw rods 7 are connected with a lifting connecting frame 6, a fan 8 is arranged on the upper surface of the lifting connecting frame 6, a plate fixing device 9 is connected on the lower surface of the lifting connecting frame 6, the oxidation reaction tank 2 comprises a reaction tank body 21, impurity adsorption plates 22 are arranged on the inner side wall of the reaction tank body 21, two electrolyte stirring devices 24 are arranged on the inner bottom side of the reaction tank body 21, and a fixing block 25 is arranged on the upper surface of each impurity adsorption plate 22, the plate fixing device 9 includes two fixing brackets 91 arranged oppositely, four sliding rods 92 are connected between the two fixing brackets 91, the upper surfaces of the two sides of the fixing brackets 91 are connected with second screws 93, and the outer surfaces of the two second screws 93 are connected to the surfaces of the two sides of the fixing bracket 91 above in a penetrating manner.

As shown in fig. 3-5, six sets of clamping bases 95 are connected to the front and rear side surfaces of the fixing bracket 91, each clamping base 95 is L-shaped, an adjusting chute 902 is formed in the upper surface of each clamping base 95, a limiting spring 903 is connected to the inner side wall of each adjusting chute 902, a clamping block bump 901 is connected to one end of each limiting spring 903, a plate clamping block 96 is connected to the upper surface of each clamping block bump 901, adjusting nuts 94 are connected to the outer surfaces of the two second screws 93 through threads, bracket connecting rods 99 are connected to the inner side walls of the two fixing brackets 91, limiting connecting rods 97 are connected to one side of the two fixing brackets 91, six sets of limiting grooves 98 are formed in one side surface of each limiting connecting rod 97, the four sliding rods 92 are fixed to the upper surface of the fixing bracket 91 at the lower end, sliding holes are formed in the surfaces of the fixing bracket 91 at the upper end and the four sliding rods 92 correspondingly, the fixing bracket 91 at the upper end is slidably connected to the outer surfaces of the four sliding rods 92 and the two second screws 93, the second screw rods 93 are movably connected to the upper surface of the fixed support 91 at the lower end, threaded holes are correspondingly formed in the two side surfaces of the lifting connecting frame 6 and the two first screw rods 7, the bottom ends of the first screw rods 7 are movably connected to the upper surface of the oxidation reaction tank 2, the positions of six groups of limiting grooves 98 correspond to the positions of the clamping base 95 and the plate clamping block 96 on the surface of the fixed support 91, the inner diameter size of each limiting groove 98 is larger than the distance between the clamping base 95 and the plate clamping block 96, the fixed support 91 at the lower end is in sliding connection with the fixed support 91 at the upper end through four sliding rods 92 and the two second screw rods 93, a plate to be subjected to oxidation treatment is clamped and fixed up and down through the matching of the clamping base 95 and the plate clamping block 96 arranged on the surface of the fixed support 91, limiting connecting rods 97 are connected to one side of the two fixed support 91, and six groups of limiting grooves 98 corresponding to the clamping base 95 and the plate clamping block 96 are arranged on one side of the limiting connecting rods 97, play limiting displacement when placing panel, prevent that panel from surpassing the frame of reaction tank body 21, and can the fixed a plurality of panels of centre gripping simultaneously, improve panel oxidation treatment's efficiency.

As shown in fig. 6-7, the surface of the side of each impurity adsorption plate 22 connected to the inner side wall of the reaction tank body 21 is connected to a plurality of adsorption plate sliders 27, the inner side wall of the reaction tank body 21 is provided with adsorption plate sliding grooves 29 corresponding to the adsorption plate sliders 27, the upper surface of each fixed block 25 is inserted with an adsorption plate fixing pin 26, the upper surface of the reaction tank body 21 and the adsorption plate fixing pins 26 are provided with adsorption plate pin holes 28 corresponding to each other, the electrolyte stirring device 24 includes a driving motor 241, a driving end of the driving motor 241 is connected to a connecting shaft 242, an outer surface of the connecting shaft 242 is connected to a first fixing ring 243, an upper surface of the first fixing ring 243 is connected to a second fixing ring 245, three stirring blades 244 are annularly connected between the first fixing ring 243 and the second fixing ring 245, a lower surface of the second fixing ring 245 is connected to three fixing pins 246, one end of each stirring blade 244 is connected to a blade bolt 247, the outer surface of the junction of first solid fixed ring 243 and the solid fixed ring 245 of second all corresponds with three flabellum bolt 247 and has seted up flabellum jack 248, the upper surface of first solid fixed ring 243 corresponds with three fixed pin 246 and has seted up fixed pinhole 249, the lower surface of the solid fixed ring 245 of second all is connected with the bolt with the junction of three flabellum bolt 247, three bolt all runs through in the inboard of inserting in flabellum jack 248 in the surface of flabellum bolt 247, the bottom of three fixed pin 246 all is connected with the rubber circle, install in the electrolyte agitating unit 24 of reaction tank body 21 bottom surface can stir electrolyte when the oxidation reaction, flow mixing with higher speed, the oxidation efficiency is improved, and simultaneously, three stirring fan blade 244 can be nimble dismouting through the cooperation of flabellum bolt 247 with the solid fixed ring 243 of first solid fixed ring and the solid fixed ring 245 of second, the convenience is to the clearance of stirring fan blade 244 surface adnexed impurity.

As shown in fig. 8 to 9, a plurality of heating resistance tubes 83 are installed inside the fan 8, a heater 81 is installed on one side of the fan 8, an output end of the heater 81 is connected to the plurality of heating resistance tubes 83, an air outlet 82 is installed on a lower surface of the fan 8, the plurality of heating resistance tubes 83 disposed inside the fan 8 are heated by the heater 81 through energization, wind generated by the fan 8 is heated, and the oxidized plate fixed by the plate fixing device 9 below is blown by a guiding function of the air outlet 82, electrolyte remaining on the surface of the plate is blown down to the inside of the reaction tank body 21, and drying of the plate is accelerated.

The working principle of the invention is as follows: when the device is used, the plate clamping block 96 slides along the adjusting sliding groove 902, a plate to be processed is inserted between the clamping base 95 and the plate clamping block 96 until one end of the plate is inserted into the limiting groove 98 corresponding to the surface of the limiting connecting rod 97, the plate clamping block 96 is loosened, the plate clamping block 96 is clamped and fixed in the direction of the clamping base 95 by the thrust of the limiting spring 903, after six plates are fixed, the servo motor 5 is started to rotate clockwise, the lifting connecting frame 6, the plate fixing device 9 connected with the lifting connecting frame and the aluminum alloy plate are lowered into the electrolyte in the reaction tank body 21 through the rotation of the first screw 7, the driving motor 241 is started, the three stirring fan blades 244 are driven to rotate through the connecting shaft 242, the electrolyte is stirred, and the occurrence of oxidation reaction is accelerated;

after the oxidation reaction is finished, the servo motor 5 rotates reversely, the lifting connecting frame 6, the plate fixing device 9 connected with the lifting connecting frame and the aluminum alloy plate are lifted above the reaction tank body 21 through the first screw 7, the fan 8 and the heater 81 are started, the heating resistance pipes 83 on the inner side of the fan 8 are electrified and heated, hot air is blown to dry the plate through the air outlet 82, and electrolyte on the surface of the plate is blown into the reaction tank body 21;

when the reaction tank body 21 needs to be cleaned, the adsorption plate fixing pins 26 are pulled out from the surface of the fixing block 25, the four impurity adsorption plates 22 are pulled out upwards along the adsorption plate sliding grooves 29, the four impurity adsorption plates 22 are cleaned, then the second fixing ring 245 of the electrolyte stirring device 24 is pulled out upwards, the fixing pins 246 connected to the lower surface of the second fixing ring 245 are pulled out from the fixing pin holes 249, and the three stirring blades 244 are pulled out from the blade insertion holes 248 and cleaned.

Claims

1. The aluminum alloy plate oxidation equipment convenient to take and place comprises a base (1) and is characterized in that an oxidation reaction tank (2) is mounted on the upper surface of the base (1), four connecting columns (3) are connected to the upper surface of the oxidation reaction tank (2), a fixing seat (4) is connected between the two connecting columns (3), servo motors (5) are mounted on the upper surfaces of the two fixing seats (4), the driving ends of the two servo motors (5) are connected with first screw rods (7), the outer surfaces of the two first screw rods (7) are connected with lifting connecting frames (6), fans (8) are mounted on the upper surfaces of the lifting connecting frames (6), and plate fixing devices (9) are connected to the lower surfaces of the lifting connecting frames (6);

the oxidation reaction tank (2) comprises a reaction tank body (21), impurity adsorption plates (22) are mounted on the inner side wall of the reaction tank body (21), two electrolyte stirring devices (24) are mounted on the inner bottom side of the reaction tank body (21), and a fixed block (25) is mounted on the upper surface of each impurity adsorption plate (22);

the plate fixing device (9) comprises two fixing supports (91) which are oppositely arranged, wherein four sliding rods (92) are connected between the fixing supports (91), the upper surfaces of two sides of each fixing support (91) are respectively connected with a second screw (93), and the outer surfaces of the second screws (93) are connected to the surfaces of two sides of the fixing supports (91) above in a penetrating mode.

2. The aluminum alloy plate oxidation equipment convenient to take and place as recited in claim 1, wherein six groups of clamping bases (95) are connected to the front and rear side surfaces of the fixing support (91), each clamping base (95) is in an L shape, an adjusting sliding groove (902) is formed in the upper surface of each clamping base (95), a limiting spring (903) is connected to the inner side wall of each adjusting sliding groove (902), a clamping block protruding block (901) is connected to one end of each limiting spring (903), and a plate clamping block (96) is connected to the upper surface of each clamping block protruding block (901).

3. The aluminum alloy plate oxidation equipment convenient to take and place as recited in claim 1, wherein the outer surfaces of the two second screws (93) are respectively in threaded connection with an adjusting nut (94), the inner side walls of the two fixed brackets (91) are respectively connected with a bracket connecting rod (99), one side of each of the two fixed brackets (91) is respectively connected with a limiting connecting rod (97), and one side of each of the two limiting connecting rods (97) is provided with six groups of limiting grooves (98).

4. The aluminum alloy plate oxidation equipment convenient to take and place of claim 1, wherein the surface of one side, connected with the inner side wall of the reaction tank body (21), of each impurity adsorption plate (22) is connected with a plurality of adsorption plate sliders (27), the inner side wall of the reaction tank body (21) and the adsorption plate sliders (27) are correspondingly provided with adsorption plate chutes (29), the upper surfaces of the fixed blocks (25) are respectively inserted with adsorption plate fixed pins (26), and the upper surfaces of the reaction tank body (21) and the adsorption plate fixed pins (26) are respectively provided with adsorption plate pin holes (28).

5. The aluminum alloy plate oxidation equipment convenient to take and place as recited in claim 1, wherein the electrolyte stirring device (24) comprises a driving motor (241), the driving end of the driving motor (241) is connected with a connecting shaft (242), the outer surface of the connecting shaft (242) is connected with a first fixing ring (243), the upper surface of the first fixing ring (243) is connected with a second fixing ring (245), three stirring blades (244) are annularly connected between the first fixing ring (243) and the second fixing ring (245), and the lower surface of the second fixing ring (245) is annularly connected with three fixing pins (246).

6. The aluminum alloy plate oxidation equipment convenient to take and place of claim 5, wherein one end of each of the three stirring blades (244) is connected with a blade bolt (247), the outer surface of the joint of the first fixing ring (243) and the second fixing ring (245) and the three blade bolts (247) are provided with a blade jack (248) correspondingly, the upper surface of the first fixing ring (243) and the three fixing pins (246) are provided with fixing pin holes (249) correspondingly, the lower surface of the second fixing ring (245) and the joint of the three blade bolts (247) are connected with bolts, the three bolts penetrate through the surface of the blade bolt (247) and are inserted into the inner side of the blade jack (248), and the bottom ends of the three fixing pins (246) are connected with rubber rings.

7. The aluminum alloy plate oxidation equipment convenient to take and place as recited in claim 1, wherein a plurality of heating resistance tubes (83) are installed on the inner side of the fan (8), a heater (81) is installed on one side of the fan (8), the output end of the heater (81) is connected with the plurality of heating resistance tubes (83), and an air outlet (82) is installed on the lower surface of the fan (8).

8. The aluminum alloy plate oxidation equipment convenient to take and place as recited in claim 3, wherein threaded holes are formed in the two side surfaces of the lifting connecting frame (6) and the two first screws (7) correspondingly, the bottom ends of the first screws (7) are movably connected to the upper surface of the oxidation reaction tank (2), the positions of the six groups of limiting grooves (98) correspond to the positions of the clamping base (95) and the plate clamping block (96) on the surface of the fixed support (91), and the inner diameter of each limiting groove (98) is larger than the distance between the clamping base (95) and the plate clamping block (96).

9. The aluminum alloy plate oxidation equipment convenient for taking and placing as recited in claim 1, wherein four slide bars (92) are fixed on the upper surface of a lower fixed support (91), the surface of an upper fixed support (91) is provided with slide holes corresponding to the four slide bars (92), the upper fixed support (91) is slidably connected to the outer surfaces of the four slide bars (92) and two second screws (93), and the second screws (93) are movably connected to the upper surface of the lower fixed support (91).