CN113561021B - Aluminum alloy aircraft nose for lithium electricity hair-dryer is polished and is electroplated integrative equipment - Google Patents

Abstract

The invention relates to the technical field of polishing and electroplating of electroplated workpieces, in particular to a lithium-ion hair drier aluminum alloy machine head polishing and electroplating integrated device, which comprises an electroplating pool and a support frame positioned in the electroplating pool, wherein the support frame is arranged in the electroplating pool through the lifting adjustment of a lifting mechanism, a hanging rod for hanging the workpieces is arranged on the support frame, and polishing mechanisms for polishing the workpieces are symmetrically arranged on two sides of the support frame; grinding machanism's below is provided with collection dirt mechanism, and this collection dirt mechanism is installed in the open-top department of electroplating the pond, and grinding machanism polishing work duration, collection dirt mechanism open the opening that forms the sealed electroplating pond top of take-up (stock) pan, connects to get grinding machanism and polish the dust that produces, and elevating system drives the support frame and descends to electroplating in the pond and add man-hour, and collection dirt mechanism folds and forms the dust that the inclosed receiver of a plurality of pins the collection.

Description

Aluminum alloy aircraft nose for lithium electricity hair-dryer is polished and is electroplated integrative equipment

Technical Field

The invention relates to the technical field of polishing and electroplating of electroplated workpieces, in particular to polishing and electroplating integrated equipment for an aluminum alloy machine head for a lithium electric blower.

Background

Lithium hair drier is an electric hair drier who uses the lithium cell as the power supply, and this electric hair drier comprises aircraft nose, collection tuber pipe and lithium cell, and wherein the shell of aircraft nose adopts the aluminium metal to make, and in the course of working of aircraft nose, aluminium metal casing need polish and electroplate processing for the metal casing of aircraft nose is dustproof, waterproof.

The electroplating process is a method for laying a layer of metal on a conductor by utilizing the principle of electrolysis. Electroplating is a surface processing method in which cations of a pre-plated metal in a plating solution are deposited on the surface of a base metal by electrolysis using the base metal to be plated as a cathode in a salt solution containing the pre-plated metal to form a plating layer.

The performance of the coating is different from that of the base metal, and the coating has new characteristics and is divided into a protective coating, a decorative coating and other functional coatings according to the functions of the coating.

During electroplating, the plating metal or other insoluble materials are used as an anode, the workpiece to be plated is used as a cathode, cations of the plating metal are reduced on the surface of the workpiece to be plated to form a plating layer, so that the corrosion resistance of the metal can be enhanced, the corrosion resistance of the plating metal is increased, the hardness is increased, the abrasion is prevented, and the conductivity, the smoothness, the heat resistance and the surface attractiveness are improved.

Before the workpiece is electroplated, the workpiece needs to be polished to ensure the surface of the workpiece to be smooth, but when the existing workpiece is polished, the workpiece is directly polished on polishing equipment and then transferred into an electroplating pool for electroplating, in the process, the workpieces are all polished one by one, and the polished workpiece is also stained with dust, so that the electroplating effect is poor.

The patent document with the patent number of CN201910705019.9 discloses a surface treatment device for an electroplating workpiece, which belongs to the technical field of workpiece surface treatment and has the technical scheme main points that: the electroplating device comprises an electroplating tank, a support frame, a hanging rod and a support frame, wherein the electroplating tank is used for bearing electroplating solution; the lifting component is arranged in the electroplating pool and used for driving the support frame to lift so that the hanging rod on the support frame drives the clamp to lift; and the polishing component is arranged on the electroplating pool and used for polishing the clamp on the hanging rod so as to remove the metal powder adhered to the surface of the clamp.

However, the work pieces may scatter the scraps generated by polishing into the plating bath during polishing, and destroy the components of the plating solution in the plating bath.

Disclosure of Invention

In order to solve the problems, the invention provides a lithium-ion hair dryer aluminum alloy head polishing and electroplating integrated device, which is characterized in that a dust collecting mechanism is arranged at the opening at the top of an electroplating pool, scraps produced by polishing of a polishing mechanism are collected by the dust collecting mechanism, the scraps are prevented from falling into the electroplating pool and influencing the components of electroplating solution in the electroplating pool, meanwhile, when a workpiece enters the electroplating pool to be electroplated, the dust collecting mechanism can automatically contract to form a plurality of storage boxes, and the scraps are locked in the storage boxes, so that the technical problem that the scraps produced by polishing of the polishing mechanism damage the components of the electroplating solution in the electroplating pool is solved.

In order to achieve the purpose, the invention provides the following technical scheme:

the aluminum alloy machine head polishing and electroplating integrated equipment for the lithium electric hair dryer comprises an electroplating pool and a support frame positioned in the electroplating pool, wherein the support frame is arranged in the electroplating pool through lifting adjustment of a lifting mechanism, a hanging rod used for hanging a workpiece is arranged on the support frame, and polishing mechanisms used for polishing the workpiece are symmetrically arranged on two sides of the support frame;

grinding machanism's below is provided with collection dirt mechanism, this collection dirt mechanism install in the open-top department of electroplating bath, grinding machanism polishing work time, collection dirt mechanism is opened and is formed that the take-up (stock) pan is sealed the opening at electroplating bath top connects and gets grinding machanism polishes the dust that produces, elevating system drives the support frame descends to when electroplating process carries out in the electroplating bath, collection dirt mechanism folds and forms the inclosed receiver of a plurality of and pins the dust of collection.

As an improvement, be provided with inlet and liquid outlet on the electroplating bath, be provided with positive pole and air agitator in the electroplating bath, the positive pole is connected with outside power, air agitator is connected with outside air supply equipment.

As an improvement, the lifting mechanism comprises lifters symmetrically arranged on two sides of the support frame, and the lifters drive the support frame to lift.

As an improvement, the sharpening mechanism comprises:

the polishing roller is arranged on the top of the electroplating tank in a way of being parallel to the suspender in a rotating way, and a sliding rail and a sliding block which are adjusted in a sliding way are arranged at the two end parts of the polishing roller; and

the polishing motor is arranged on the electroplating tank and drives the polishing roller to rotate to polish the workpiece.

As an improvement, the dust collection mechanism includes:

the collecting assemblies are symmetrically arranged in the electroplating pool, the collecting tray is formed when the collecting assemblies are unfolded, and the collecting box is formed when the collecting assemblies are contracted; and

and the driving assemblies are symmetrically arranged on the outer wall of the electroplating pool and push the corresponding storage assemblies to expand and contract.

As an improvement, the storage assembly comprises a plurality of groups of first storage grooves and second storage grooves which are hinged end to end, the first storage grooves and the second storage grooves are arranged in the horizontal direction perpendicular to the length direction of the hanging rod, and the first storage grooves and the second storage grooves are hinged to each other.

As an improvement, the drive assembly comprises:

the pushing cylinders are symmetrically arranged at two end parts of the corresponding containing components and drive the containing components to expand and contract; and

the slide rail, the slide rail bury underground in the lateral wall of electroplating bath, first groove and the second of accomodating is followed the slide rail slides and expands and the shrink.

As an improvement, the supporting frame is arranged on a piston controller at the top of the electroplating pool in an extrusion manner and drives the pushing cylinder to push.

As an improvement, the piston controller comprises:

the top of the air pump shell is provided with a first interface, the bottom of the air pump shell is provided with a second interface, the first interface is communicated with a first air hole at the tail of the pushing cylinder, and the second interface is communicated with a second air hole at the head of the pushing cylinder;

the piston is slidably mounted in the air pump shell, the lower end of the piston is connected with a push rod, the push rod penetrates out of the air pump shell downwards, a push block is mounted at the lower end of the push rod, and a reset elastic piece is sleeved on the push rod.

As the improvement, install waste gas on the both sides wall of electroplating bath and take out from the mechanism, this waste gas is taken out from the mechanism and is included:

the air pumping cylinder is communicated with the electroplating pool, and waste gas in the electroplating pool is discharged outwards through the air pumping cylinder; and

the air guide fan is arranged in the air exhaust tube and drives the waste gas in the air exhaust tube to flow.

The invention has the beneficial effects that:

(1) according to the electroplating pool, the dust collecting mechanism is arranged at the opening at the top of the electroplating pool, and waste scraps generated by polishing of the polishing mechanism are collected by the dust collecting mechanism, so that the waste scraps are prevented from falling into the electroplating pool and influencing the components of electroplating solution in the electroplating pool;

(2) according to the invention, the expansion and contraction of the dust collecting mechanism are driven by the lifting of the support frame bearing the workpiece, so that the polishing and electroplating actions of the workpiece are closely connected with the expansion and contraction of the dust collecting mechanism, the mechanisms are closely matched, and the actions are coherent;

(3) when the dust collecting mechanism is unfolded to form the material receiving disc to seal the top opening of the electroplating pool, the waste gas generated in the electroplating pool is extracted by the waste gas extracting mechanism, so that the waste gas in the electroplating pool is prevented from accumulating when the material receiving disc blocks the top opening of the electroplating pool, and a large amount of accumulated waste gas pollutes the environment when the electroplating pool is opened again.

In conclusion, the polishing device has the advantages of good polishing effect, good electroplating effect, efficient treatment of waste gas and waste scraps and the like, and is particularly suitable for the technical field of polishing and electroplating of electroplated workpieces.

Drawings

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is a schematic perspective view of the storage box of the present invention;

FIG. 4 is a schematic perspective view of a take-up reel of the present invention;

FIG. 5 is an enlarged view of the structure at A in FIG. 4;

FIG. 6 is a schematic perspective view of the second embodiment of the present invention;

FIG. 7 is an enlarged view of the structure at B in FIG. 6;

FIG. 8 is an enlarged view of the structure at C in FIG. 6;

FIG. 9 is a schematic cross-sectional view of a piston controller according to the present invention;

fig. 10 is a schematic sectional structure view of the exhaust gas pumping mechanism of the present invention.

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.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Example (b):

as shown in fig. 1 to 6, an aluminum alloy machine head polishing and electroplating integrated device for a lithium electric blower comprises an electroplating pool 1 and a support frame 2 positioned in the electroplating pool 1, wherein the support frame 2 is arranged in the electroplating pool 1 through a lifting mechanism 3 in a lifting adjusting manner, a hanger rod 21 for hanging a workpiece is arranged on the support frame 2, and polishing mechanisms 4 for polishing the workpiece are symmetrically arranged on two sides of the support frame 2;

the below of grinding machanism 4 is provided with collection dirt mechanism 5, this collection dirt mechanism 5 install in the open-top department of electroplating bath 1, grinding machanism 4 the during operation of polishing, collection dirt mechanism 5 is opened and is formed take-up (stock) pan 50 sealed the opening at electroplating bath 1 top connects and gets the dust that grinding machanism 4 polished the production, elevating system 3 drives support frame 2 descends to when carrying out electroplating process in the electroplating bath 1, collection dirt mechanism 5 folds to form the inclosed receiver 51 of a plurality of and pins the dust of collection.

Wherein, be provided with inlet 11 and liquid outlet 12 on the electroplating bath 1, be provided with positive pole 13 and air agitator 14 in the electroplating bath 1, positive pole 13 is connected with outside power, air agitator 14 is connected with outside air supply equipment.

Preferably, the lifting mechanism 3 includes lifters 31 symmetrically disposed on two sides of the supporting frame 2, the lifters 31 drive the supporting frame 2 to lift, and the lifters 31 are preferably hydraulic mechanisms.

Preferably, the grinding mechanism 4 includes:

the polishing roller 41 is rotatably arranged on the top of the electroplating tank 1 in parallel with the hanger rod 21, sliding rails and sliding blocks which are adjusted in a sliding mode are arranged at two end parts of the polishing roller 41, and the polishing roller 41 is locked and fixed through bolts on the sliding blocks after sliding in place through the sliding rails and the sliding blocks; and

and the grinding motor 42 is arranged on the electroplating tank 1, and the grinding motor 42 drives the grinding roller 41 to rotate to grind the workpiece.

Preferably, the dust collecting mechanism 5 includes:

the receiving assemblies 53 are symmetrically arranged in the electroplating pool 1, the receiving tray 50 is formed when the receiving assemblies 53 are unfolded, and the receiving box 51 is formed when the receiving assemblies 53 are contracted; and

the driving assemblies 54 are symmetrically arranged on the outer wall of the electroplating pool 1, and the driving assemblies 54 push the corresponding receiving assemblies 53 to expand and contract.

Wherein, accomodate subassembly 53 and include that a plurality of groups end to end are articulated each other and are set up first accomodate groove 531 and second accomodate groove 532, first accomodate groove 531 and second accomodate groove 532 all along the perpendicular to the horizontal direction of the length direction of jib 21 is arranged and is set up, just first accomodate groove 531 with the second accomodate and articulate each other between the groove 532 and set up.

Further, the driving assembly 54 includes:

the pushing cylinders 541 are symmetrically installed at two end portions of the corresponding storage component 53, and the pushing cylinders 541 drive the storage component 53 to expand and contract; and

the sliding rails 542 are embedded in the side walls of the electroplating tank 1, and the first accommodating groove 531 and the second accommodating groove 532 are extended and contracted along the sliding rails 542 in a sliding manner.

It should be noted that, a workpiece to be electroplated is hung on the suspension rod 21 after being hooked well, the position of the polishing mechanism 4 is adjusted by the slide rail slider, then the polishing motor 42 in the polishing mechanism 4 is started to drive the polishing roller 41 to rotate to polish the workpiece hung on the suspension rod 21, in the process of polishing the workpiece by the polishing mechanism 4, the first accommodating groove 531 and the second accommodating groove 532 of the accommodating component 53 in the dust collecting mechanism 5 are unfolded and combined to form the receiving tray 50 which is arranged right below the workpiece, waste scraps generated in the polishing process of the polishing mechanism 4 are collected, after the workpiece is polished, the polishing mechanism 4 is reset, the support frame 2 is driven by the lifter 31 in the lifting mechanism 3 to fall into the electroplating tank 1 to perform electroplating operation, in the process of driving the support frame 2 to fall by the lifter 31, the pushing cylinder 541 for controlling the unfolding of the first accommodating groove 531 and the second accommodating groove 532 is controlled by the piston controller 55, drive first groove 531 of accomodating and the second groove 532 shrink combination formation receiver 51 of accomodating, to collect sweeps lock in receiver 51 on earth, and open the opening at electroplating bath 1 top, supply the 2 whereabouts of support frame to enter into electroplating bath 1 in, piston controller 55 drives propelling movement cylinder 541 through the extrusion of support frame 2 and carries out propelling movement and shrink, treat that the work piece accomplishes the electroplating work after, riser 31 drives support frame 2 and resets the lifting, piston controller 55 is compressed once more, propelling movement cylinder 541 drives first groove 531 of accomodating and the second groove 532 of accomodating and expands once more and form take-up pan 50.

As shown in fig. 6 to 9, as a preferred embodiment, the piston controller 55, which is mounted on the top of the plating tank 1 by pressing the supporting frame 2, drives the pushing cylinder 541 to push.

Wherein the piston controller 55 includes:

the air pump shell 551 is provided with a first interface 552 on the top of the air pump shell 551, the bottom of the air pump shell 551 is provided with a second interface 553, the first interface 552 is communicated with a first air hole 5411 at the tail part of the pushing cylinder 541, and the second interface 553 is communicated with a second air hole 5412 at the head part of the pushing cylinder 541;

the piston 554 is slidably mounted in the air pump housing 551, the lower end of the piston 554 is connected with a push rod 555, the push rod 555 penetrates out of the air pump housing 551 downwards, the lower end of the push rod 555 is provided with a push block 556, and the push rod 555 is sleeved with a return elastic element 557.

It should be noted that, after the support frame 2 compresses the piston 554 to discharge the gas in the air pump housing 551 into the pushing cylinder 541, the pushing cylinder 541 pushes to drive the first accommodating groove 531 and the second accommodating groove 532 to expand, and when the support frame 2 releases the compression on the piston 554, the return elastic member 557 drives the piston to return, the gas returns to the air pump housing 551 again, and the pushing cylinder 541 contracts to drive the first accommodating groove 531 and the second accommodating groove 532 to contract.

As shown in fig. 10, as a preferred embodiment, two side walls of the plating tank 1 are provided with an exhaust gas extraction mechanism 6, and the exhaust gas extraction mechanism 6 includes:

the air pumping cylinder 61 is communicated with the electroplating pool 1, and waste gas in the electroplating pool 1 is discharged outwards through the air pumping cylinder 61; and

and the air guiding fan 62 is installed in the air extraction cylinder 61, and the air guiding fan 62 drives the exhaust gas in the air extraction cylinder 61 to flow.

It should be noted that, when the first accommodating groove 531 and the second accommodating groove 532 are expanded and the top opening of the electroplating pool 1 is sealed, the electroplating solution in the electroplating pool 1 can generate a large amount of waste gas, the waste gas is accumulated in the electroplating pool 1, and the waste gas can be timely extracted through the waste gas extracting mechanism 6, so that the situation that when the first accommodating groove 531 and the second accommodating groove 532 are contracted and the opening at the top of the electroplating pool 1 is opened, a large amount of waste gas is discharged and the environment is polluted is avoided.

The working process is as follows:

the method comprises the following steps:

firstly, mounting a workpiece, namely, threading the workpiece to be electroplated by using a hook and then suspending the workpiece on a suspender 21;

secondly, polishing the workpiece, namely adjusting the position of the polishing mechanism 4 through a slide rail slide block, and then starting a polishing motor 42 in the polishing mechanism 4 to drive a polishing roller 41 to rotate so as to polish the workpiece hung on the hanging rod 21;

step three, collecting the scraps, wherein in the process of polishing the workpiece by the polishing mechanism 4 synchronously with the step two, the first accommodating groove 531 and the second accommodating groove 532 of the accommodating component 53 in the dust collecting mechanism 5 are unfolded and combined to form a receiving tray 50 which is arranged right below the workpiece, and the scraps generated in the polishing process of the polishing mechanism 4 are collected;

step four, descending electroplating, after the workpiece is polished, resetting the polishing mechanism 4, and driving the support frame 2 to fall into the electroplating pool 1 to start electroplating work through a lifter 31 in the lifting mechanism 3;

step five, dust collection and contraction, wherein in synchronization with the step four, in the process that the support frame 2 is driven to descend by the lifter 31, the pushing cylinder 541 for controlling the expansion of the first accommodating groove 531 and the second accommodating groove 532 is controlled by the piston controller 55 to drive the first accommodating groove 531 and the second accommodating groove 532 to contract and combine to form the accommodating box 51, the collected waste scraps are locked in the accommodating box 51, the opening at the top of the electroplating pool 1 is opened, the support frame 2 falls into the electroplating pool 1, and the piston controller 55 drives the pushing cylinder 541 to push and contract by the extrusion of the support frame 2; and

and sixthly, resetting and lifting, after the workpiece finishes the electroplating work, the lifter 31 drives the support frame 2 to reset and lift, the piston controller 55 is compressed again, and the pushing cylinder 541 drives the first accommodating groove 531 and the second accommodating groove 532 to expand again to form the receiving tray 50.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (7)

1. The utility model provides a lithium electricity is aluminum alloy aircraft nose for hair-dryer is polished and is electroplated integrative equipment, includes electroplating bath (1) and is located support frame (2) of this electroplating bath (1), its characterized in that:

the support frame (2) is arranged in the electroplating pool (1) through the lifting adjustment of a lifting mechanism (3), a hanging rod (21) used for hanging a workpiece is arranged on the support frame (2), and grinding mechanisms (4) used for grinding the workpiece are symmetrically arranged on two sides of the support frame (2);

a dust collecting mechanism (5) is arranged below the polishing mechanism (4), the dust collecting mechanism (5) is installed at an opening at the top of the electroplating pool (1), when the polishing mechanism (4) performs polishing work, the dust collecting mechanism (5) opens to form a receiving disc (50) to seal the opening at the top of the electroplating pool (1), dust generated by polishing of the polishing mechanism (4) is received, the lifting mechanism (3) drives the support frame (2) to descend into the electroplating pool (1) for electroplating processing, and the dust collecting mechanism (5) is folded to form a plurality of closed receiving boxes (51) to lock the collected dust;

the dust collection mechanism (5) comprises a receiving assembly (53) and a driving assembly (54), the receiving assembly (53) is symmetrically installed in the electroplating pool (1), the receiving tray (50) is formed when the receiving assembly (53) is unfolded, the receiving box (51) is formed when the receiving assembly (53) is contracted, the driving assembly (54) is symmetrically installed on the outer wall of the electroplating pool (1), and the driving assembly (54) pushes the corresponding receiving assembly (53) to be unfolded and contracted;

the drive assembly (54) comprises a push cylinder (541);

the supporting frame (2) is arranged on a piston controller (55) at the top of the electroplating pool (1) in an extruding way to drive the pushing cylinder (541) to push,

the piston controller (55) comprises an air pump housing (551) and a piston (554); the top of the air pump shell (551) is provided with a first interface (552), the bottom of the air pump shell (551) is provided with a second interface (553), the first interface (552) is communicated with a first air hole (5411) at the tail of the pushing cylinder (541), the second interface (553) is communicated with a second air hole (5412) at the head of the pushing cylinder (541), the piston (554) is slidably installed in the air pump shell (551), the lower end of the piston (554) is connected with a push rod (555), the push rod (555) penetrates out of the air pump shell (551) downwards, the lower end of the push rod (555) is provided with a push block (556), and the push rod (555) is sleeved with a reset elastic part (557).

2. The aluminum alloy aircraft nose polishing electroplating integrated equipment for lithium electricity hair-dryer of claim 1, characterized in that, be provided with inlet (11) and outlet (12) on electroplating cell (1), be provided with positive pole (13) and air agitator (14) in electroplating cell (1), positive pole (13) are connected with outside power, air agitator (14) are connected with outside air feed equipment.

3. The aluminum alloy handpiece grinding and electroplating integrated equipment for the lithium electric blower is characterized in that the lifting mechanism (3) comprises lifters (31) symmetrically arranged on two sides of the support frame (2), and the lifters (31) drive the support frame (2) to be lifted.

4. The aluminum alloy handpiece grinding and electroplating integrated equipment for the lithium electric blower according to claim 1, wherein the grinding mechanism (4) comprises:

the grinding roller (41) is arranged on the top of the electroplating pool (1) in a manner of being parallel to the hanger rod (21) in a rotating mode, and sliding rails and sliding blocks which are adjusted in a sliding mode are arranged at two end portions of the grinding roller (41); and

the polishing device comprises a polishing motor (42), wherein the polishing motor (42) is arranged on the electroplating pool (1), and the polishing motor (42) drives the polishing roller (41) to rotate to polish a workpiece.

5. The aluminum alloy handpiece polishing and electroplating integrated equipment for the lithium ion blower according to claim 1, wherein the storage assembly (53) comprises a plurality of groups of first storage grooves (531) and second storage grooves (532) which are hinged end to end, the first storage grooves (531) and the second storage grooves (532) are arranged in a horizontal direction perpendicular to the length direction of the hanger rod (21), and the first storage grooves (531) and the second storage grooves (532) are hinged to each other.

6. The aluminum alloy head grinding and electroplating integrated equipment for the lithium electric blower as claimed in claim 5, wherein the aluminum alloy head grinding and electroplating integrated equipment comprises:

the pushing cylinders (541) are symmetrically arranged at two ends of the corresponding storage component (53), and the pushing cylinders (541) drive the storage components (53) to expand and contract; and

the driving assembly (54) further comprises a sliding rail (542), the sliding rail (542) is embedded in the side wall of the electroplating pool (1), and the first accommodating groove (531) and the second accommodating groove (532) are extended and contracted along the sliding rail (542) in a sliding manner.

7. The aluminum alloy handpiece grinding and electroplating integrated equipment for the lithium electric blower according to claim 1, wherein the two side walls of the electroplating cell (1) are provided with an exhaust gas pumping mechanism (6), and the exhaust gas pumping mechanism (6) comprises:

the air pumping cylinder (61), the air pumping cylinder (61) is communicated with the electroplating pool (1), and waste gas in the electroplating pool (1) is discharged outwards through the air pumping cylinder (61); and

the air guide fan (62) is installed in the air extraction cylinder (61), and the air guide fan (62) drives the waste gas in the air extraction cylinder (61) to flow.

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