CN113957513B - Drum-type full-automatic electroplating system and application process thereof - Google Patents

Abstract

The application relates to a drum-type full-automatic electroplating system and an application process thereof, and relates to the field of barrel plating. The drum-type full-automatic electroplating system has the advantages that residual electroplating liquid in the drum is shaken out to reduce the possibility that electroplating liquid drops fall to the outer side of the treatment tank, so that the environment-friendly effect of the barrel-plating equipment is improved.

Description

Drum-type full-automatic electroplating system and application process thereof

Technical Field

The application relates to the field of barrel plating, in particular to a roller type full-automatic electroplating system and an application process thereof.

Background

In the electroplating industry, there are mainly two modes of hanging plating and barrel plating, wherein the hanging plating is to hang a large part on a hanging tool through clamping, then the hanging tool is immersed in a treatment tank to electroplate the large part, the barrel plating is suitable for electroplating small parts, the small part is arranged in a roller, the roller is immersed in the treatment tank, and meanwhile, the roller is rotated, so that the small part in the roller can be overturned, and the small part can be fully electroplated.

In actual operation, the roller is driven by the portal frame to sequentially enter a plurality of treatment tanks, electroplating liquid can remain in the roller in the process of moving from one treatment tank to the other treatment tank, and the residual electroplating liquid easily drops to the outer side of the treatment tank from the through hole on the side wall of the roller, so that the overall working environment can be influenced, and the environmental protection performance of the barrel plating equipment is reduced.

Disclosure of Invention

In order to improve the environmental protection of barrel plating equipment, the application provides a roller type full-automatic electroplating system and an application process thereof.

In a first aspect, the present application provides a drum-type full-automatic electroplating system, which adopts the following technical scheme:

the roller type full-automatic electroplating system comprises a plurality of processing tanks which are sequentially arranged, wherein a supporting frame is arranged on the outer side of each processing tank, a portal frame is arranged on each supporting frame in a sliding mode, a roller is arranged on each portal frame, mounting plates are arranged at two ends of each roller, bearing plates in one-to-one correspondence with the two mounting plates are arranged on each portal frame, one mounting plate is hinged with a corresponding bearing plate shaft, the other mounting plate is movably connected with the corresponding bearing plate, and a driving mechanism used for driving the mounting plates movably connected with the bearing plates to move up and down is arranged on each bearing plate.

Through adopting above-mentioned technical scheme, after the cylinder shifts out from the processing tank, utilize actuating mechanism drive mounting panel reciprocates to can drive the cylinder and shake about the articulated shaft, thereby can shake out the interior remaining electroplating solution of cylinder, reduced the cylinder when shifting into next processing tank, have the electroplating liquid drop to the possibility outside the processing tank, improved the feature of environmental protection of barrel plating equipment to a certain extent.

Optionally, the driving mechanism comprises a sliding rod penetrating through the supporting plate and connected with the supporting plate in a sliding manner, the sliding rod is connected with a sliding plate, the sliding plate is connected with a sliding block in a sliding manner, the mounting plate is connected with a mounting rod, and the mounting rod is provided with a rotating shaft connected with the sliding block in a rotating manner;

the device also comprises a driving component for driving the sliding rod to move up and down on the bearing plate.

Through adopting above-mentioned technical scheme, utilize drive assembly drive sliding rod reciprocates, under the slip of sliding block and the relative pivoted condition of installation pole and sliding block emergence, the cylinder can be around the articulated shaft luffing motion to reach the effect of shake cylinder, make the electroplating solution in the cylinder buff out.

Optionally, the drive assembly is including locating the driving motor on the bearing board, be equipped with the cam on driving motor's the output shaft, the one end that the pole of sliding runs through the bearing board is equipped with the gag lever post, the gag lever post is located the top of cam and laminating on the periphery lateral wall of cam.

Through adopting above-mentioned technical scheme, when driving motor drove the cam and rotated, under the jacking effect of cam and the self gravity effect of slide bar, the slide bar can reciprocate to can shake the cylinder.

Optionally, the cylinder includes the center pin and sets up rotatable barrel with the center pin is coaxial, the cover is equipped with a plurality of installation tubes on the center pin, it has hemispherical mounting groove to open on the lateral wall of installation tube, and the installation tube is equipped with the buffer spring that is located the mounting groove, buffer spring's end connection has the poking rod that stretches out the mounting groove.

By adopting the technical scheme, when the cylinder rotates, the poking rod can poke the metal parts of the cylinder, so that the situation that the metal parts are stacked can be reduced; simultaneously, under the effect of buffer spring, the stirring force of stirring rod to metal spare part obtains buffering to can reduce the damage of stirring rod to metal spare part.

Optionally, a buffer pad is installed on the inner side wall of the installation groove.

Through adopting above-mentioned technical scheme, further reduce the stirring force of stirring rod to metal parts, reduce the damage of stirring rod to metal parts.

Optionally, the both ends of center pin are connected in two mounting panels respectively, and the one end of barrel is equipped with the rotation gear, wherein install the rotation motor on the mounting panel, install the drive gear with rotation gear meshing on the output shaft of rotation motor.

By adopting the technical scheme, the cylinder can be driven to rotate, so that metal parts in the cylinder can be overturned.

Optionally, the portal frame comprises two support columns arranged on a support frame, the two support columns jointly support a top plate, a rotatable winding rod is arranged on the top plate, the two support plates are jointly connected with a connecting plate, and a winding rope connected with the connecting plate is arranged on the winding rod;

the winding device is characterized in that a winding motor is arranged on the top plate, a driving gear is arranged on an output shaft of the winding motor, and a driven gear meshed with the driving gear is arranged on the winding rod.

By adopting the technical scheme, the connecting plate can be driven to move up and down, so that the roller can be driven to move into or out of the treatment groove.

Optionally, the support frame is including the backup pad that is located the treatment tank both sides respectively, and the backup pad is opened there is the removal groove, and the bottom of support column is equipped with the gyro wheel that is located the removal inslot, be equipped with the movable motor on the support column, be equipped with the removal gear on the output shaft of movable motor, be equipped with along the length direction of backup pad in the backup pad and be used for removing gear engagement's rack.

By adopting the technical scheme, the portal frame can be driven to move on the supporting frame, so that the roller sequentially passes through a plurality of treatment tanks.

In a second aspect, the application provides an application process of a drum-type full-automatic electroplating system, which adopts the following technical scheme:

the application process of the roller type full-automatic electroplating system comprises the following steps:

s1, moving a portal frame to an initial treatment tank, loading metal parts into a roller, and adding electroplating liquid into each treatment tank;

s2, the roller is lowered into the treatment tank, the roller is rotated, and electroplating operation is started;

s3, lifting the roller, and moving the mounting plate up and down to shake the roller;

s4, moving the portal frame to the position of the next processing groove, descending the roller into the processing groove, rotating the roller, and starting electroplating operation;

s5, lifting the roller, and moving the mounting plate up and down to shake the roller;

s6, repeating the step S4 and the step S5 until the whole electroplating operation is completed, and finally taking out the metal parts in the roller.

In summary, the present application includes at least one of the following beneficial technical effects:

1. according to the application, one end of the roller is driven to move up and down, so that the roller is dithered, and residual electroplating liquid in the roller can be dithered out, the possibility that electroplating liquid drops fall to the outer side of a processing tank when the roller moves into the next processing tank is reduced, and the environmental protection of electroplating equipment is improved;

2. according to the application, the metal parts in the cylinder body are stirred by the stirring rod, so that the situation that the metal parts are stacked is reduced, and the metal parts can be fully plated.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a drum-type full-automatic electroplating system according to an embodiment of the application.

Fig. 2 is a cross-sectional view of a support plate in an embodiment of the application.

FIG. 3 is a schematic diagram of the connection of the winding rod and the connection plate in an embodiment of the present application.

Fig. 4 is a cross-sectional view of a cartridge in an embodiment of the application.

Fig. 5 is an enlarged view of a portion a in fig. 4.

Reference numerals illustrate: 1. a support frame; 11. a support plate; 111. a moving groove; 112. a rack; 2. a treatment tank; 3. a portal frame; 31. a support column; 311. a roller; 312. a reinforcing rod; 32. a top plate; 321. a winding rod; 322. a winding motor; 323. a drive gear; 324. a driven gear; 325. winding the rope; 33. a moving motor; 331. a moving gear; 34. a connecting plate; 35. a bearing plate; 351. a support rod; 352. a sliding rod; 353. a limit rod; 354. a sleeve; 36. a driving motor; 361. a cam; 37. a slip plate; 371. a slip groove; 372. a sliding block; 4. a roller; 41. a central shaft; 411. a rotating shaft; 42. a cylinder; 421. rotating the gear; 43. a mounting plate; 431. a rotating motor; 432. a drive gear; 433. a mounting rod; 44. installing a pipe; 441. a mounting groove; 442. a buffer spring; 443. a toggle rod; 444. and a cushion pad.

Detailed Description

The application is described in further detail below with reference to fig. 1-5.

The embodiment of the application discloses a roller type full-automatic electroplating system. Referring to fig. 1, the drum-type full-automatic electroplating system comprises a support frame 1 and a plurality of treatment tanks 2 sequentially arranged in the support frame 1, wherein a portal frame 3 is arranged on the support frame 1, a drum 4 is arranged on the portal frame 3, and the drum 4 is sequentially moved into the treatment tanks 2 by the portal frame 3 in the actual operation process so as to finish the electroplating operation.

Referring to fig. 2, the support frame 1 includes support plates 11 located at two sides of the processing tank 2, and the gantry 3 includes two support columns 31 respectively disposed on the support plates 11, where the two support columns 31 together support a top plate 32. The top surface of the support plate 11 is provided with a moving groove 111 along the length direction of the support plate 11, the bottom of the support column 31 is provided with a roller 311 positioned in the moving groove 111, in order to ensure the balance of the support column 31, both side surfaces of the support column 31 are provided with reinforcing rods 312, and the bottom of the reinforcing rods 312 is also provided with a roller 311, so that the support column 31 can move stably in the moving groove 111. The support column 31 is provided with a moving motor 33, an output shaft of the moving motor 33 is provided with a moving gear 331, a rack 112 is arranged on the top surface of the support plate 11 along the length direction of the support plate 11, the moving gear 331 is meshed with the rack 112, and when the moving motor 33 drives the moving gear 331 to rotate, the portal frame 3 can move on the support frame 1.

Referring to fig. 3, a rotatable winding rod 321 is mounted on a top plate 32 through a bearing, a winding motor 322 is mounted on the top plate 32, a driving gear 323 is mounted on an output shaft of the winding motor 322, a driven gear 324 is arranged on the winding rod 321, and the driving gear 323 is meshed with the driven gear 324, so that the winding motor 322 can drive the winding rod 321 to rotate. A strip-shaped connecting plate 34 is arranged below the top plate 32, a winding rope 325 is wound on the winding rod 321, and the end part of the winding rope 325 is connected with the connecting plate 34, so that the connecting plate 34 can move up and down under the action of the winding rope 325.

Referring to fig. 3, the drum 4 includes a central shaft 41 and a drum body 42 provided on the central shaft 41, the drum body 42 is rotatable about an axial direction of the central shaft 41, both ends of the central shaft 41 are connected with a mounting plate 43, a rotation motor 431 is mounted on one mounting plate 43, a driving gear 432 is mounted on an output shaft of the rotation motor 431, and correspondingly, a rotation gear 421 engaged with the driving gear 432 is provided at an end of the drum body 42, so that the rotation motor 431 can drive the drum body 42 to rotate.

Referring to fig. 3, two support plates 35 corresponding to the two mounting plates 43 one by one are mounted on the connection plate 34, mounting rods 433 are respectively disposed on the two mounting plates 43, a support rod 351 hinged to the mounting rod 433 is disposed on one support plate 35, a yielding hole is formed in the other support plate 35, a sliding rod 352 penetrating the yielding hole and capable of moving in the yielding hole is disposed on the support plate 35, and a limit rod 353 is disposed on a side surface of the sliding rod 352. Be equipped with driving motor 36 on the bearing board 35, install cam 361 on driving motor 36's the output shaft, gag lever post 353 is located the top of cam 361 and laminating on the periphery lateral wall of cam 361 for when driving motor 36 drove cam 361 and rotated, slide bar 352 can do the vertical direction under cam 361 and self gravity effect and reciprocate. In order to reduce friction between the limit lever 353 and the cam 361, the limit lever 353 is sleeved with a rotatable sleeve 354.

Referring to fig. 3, a sliding plate 37 is connected to a sliding rod 352, the sliding plate 37 is provided with a sliding groove 371, the sliding plate 37 is provided with a sliding block 372 positioned in the sliding groove 371, the sliding block 372 can slide in the sliding groove 371, a rotating shaft 411 is mounted on a mounting rod 433 on a mounting plate 43, and the rotating shaft 411 is inserted into the sliding block 372 and can rotate in the sliding block 372. When the driving motor 36 drives the sliding rod 352 to move up and down, the mounting rod 433 and the sliding block 372 rotate relatively, and the sliding block 372 moves in the sliding groove 371, so that one end of the cylinder 42 can reciprocate up and down in the vertical direction, the effect of shaking the cylinder 42 can be achieved, and the electroplating solution in the cylinder 4 can be shaken out after the cylinder 4 moves out of the treatment groove 2.

Referring to fig. 4 and 5, in order to reduce the stacking of metal components in the cylinder 42, a plurality of mounting tubes 44 positioned in the cylinder 42 are sleeved on the central shaft 41, a plurality of mounting slots 441 are uniformly formed in the outer peripheral side wall of the mounting tube 44, the mounting tube 44 is provided with a buffer spring 442 positioned in the mounting slot 441 and a toggle lever 443, one end of the toggle lever 443 is connected to the buffer spring 442, and the other end extends out of the mounting slot 441. When the cylinder 42 rotates, if metal parts are stacked in the cylinder 42, the poking rod 443 can poke the metal parts so as to scatter the metal parts, thereby facilitating the full plating of the metal parts. When the poking rod 443 is poking metal parts, the poking rod 443 can deflect in the mounting groove 441 under the thrust of the metal parts and is buffered under the action of the buffer spring 442, so that the poking force of the poking rod 443 to the metal parts can be reduced, and the possibility that the poking rod 443 damages the metal parts is reduced.

In order to further achieve the buffering effect, the buffer pad 444 is mounted on the inner side wall of the mounting groove 441, deflection of the toggle rod 443 is further buffered by the buffer pad 444, and accordingly damage of the toggle rod 443 to metal parts is further reduced.

The implementation principle of the roller type full-automatic electroplating system provided by the embodiment of the application is as follows: loading metal parts into the roller 4, moving the roller 4 to the position of the initial treatment tank 2 by using the portal frame 3, starting the winding motor 322, and dropping the roller 4 into the treatment tank 2 for electroplating; when the roller 4 is moved out of the processing tank 2 to move into the next processing tank 2, the driving motor 36 is started to shake the roller 4, so that residual electroplating liquid in the roller 4 is shaken out, the possibility that electroplating liquid drops fall on the outer side of the processing tank 2 when the roller 4 moves into the next processing tank 2 is reduced, the environmental protection performance of electroplating equipment is improved, and meanwhile, the situation that the electroplating liquid in the last processing tank 2 enters the next processing tank 2 to pollute is also reduced.

The embodiment of the application also discloses an application process of the roller type full-automatic electroplating system. The application process of the roller type full-automatic electroplating system comprises the following steps of:

s1, moving a portal frame 3 to an initial treatment tank 2 by using a moving motor 33, loading metal parts into a roller 4, and adding electroplating solution into each treatment tank 2;

s2, the roller 4 is lowered into the processing tank 2 by utilizing the winding motor 322, the rotating motor 431 is started to rotate the roller 4, and the electroplating operation is started;

s3, after electroplating, lifting the roller 4 by using a winding motor 322, and starting a driving motor 36 to enable one end of the roller 4 to move up and down so as to enable the roller 4 to shake;

s4, moving the roller 4 to the position of the next processing tank 2 by using the portal frame 3, lowering the roller 4 into the processing tank 2 by using the winding motor 322, starting the rotating motor 431 to rotate the roller 4, and starting the electroplating operation;

s5, lifting the roller 4, and enabling the roller 4 to shake by using a driving motor 36;

s6, repeating the step S4 and the step S5 until the roller 4 sequentially passes through the plurality of treatment tanks 2 to finish the whole electroplating operation, and finally taking out the metal parts in the roller 4.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (7)

1. Roller type full-automatic electroplating system, its characterized in that: the device comprises a plurality of treatment tanks (2) which are sequentially arranged, wherein a support frame (1) is arranged on the outer side of each treatment tank (2), a portal frame (3) is arranged on each support frame (1) in a sliding manner, a roller (4) is arranged on each portal frame (3), mounting plates (43) are arranged at two ends of each roller (4), bearing plates (35) which are in one-to-one correspondence with the two mounting plates (43) are arranged on each portal frame (3), one mounting plate (43) is hinged with the corresponding bearing plate (35), the other mounting plate (43) is movably connected with the corresponding bearing plate (35), and a driving mechanism which is used for driving the mounting plates (43) which are movably connected with the corresponding bearing plates (35) to move up and down is arranged on each bearing plate (35);

the driving mechanism comprises a sliding rod (352) penetrating through the bearing plate (35) and connected with the bearing plate (35) in a sliding mode, the sliding rod (352) is connected with a sliding plate (37), the sliding plate (37) is connected with a sliding block (372) in a sliding mode, the mounting plate (43) is connected with a mounting rod (433), and a rotating shaft (411) connected to the sliding block (372) in a rotating mode is arranged on the mounting rod (433);

the device also comprises a driving component for driving the sliding rod (352) to move up and down on the bearing plate (35);

the driving assembly comprises a driving motor (36) arranged on the bearing plate (35), a cam (361) is arranged on an output shaft of the driving motor (36), a limit rod (353) is arranged at one end of the sliding rod (352) penetrating through the bearing plate (35), and the limit rod (353) is arranged above the cam (361) and is attached to the peripheral side wall of the cam (361).

2. The drum-type full-automatic electroplating system according to claim 1, wherein: the roller (4) comprises a central shaft (41) and a rotatable cylinder body (42) which is coaxially arranged with the central shaft (41), a plurality of mounting pipes (44) are sleeved on the central shaft (41), hemispherical mounting grooves (441) are formed in the outer side walls of the mounting pipes (44), buffer springs (442) located in the mounting grooves (441) are arranged on the mounting pipes (44), and poking rods (443) extending out of the mounting grooves (441) are connected to the end portions of the buffer springs (442).

3. The drum-type full-automatic electroplating system according to claim 2, wherein: a buffer pad (444) is arranged on the inner side wall of the mounting groove (441).

4. The drum-type full-automatic electroplating system according to claim 2, wherein: two ends of the central shaft (41) are respectively connected with two mounting plates (43), one end of the cylinder body (42) is provided with a rotary gear (421), one mounting plate (43) is provided with a rotary motor (431), and an output shaft of the rotary motor (431) is provided with a driving gear (432) meshed with the rotary gear (421).

5. The drum-type full-automatic electroplating system according to claim 1, wherein: the portal frame (3) comprises two supporting columns (31) arranged on a supporting frame (1), the two supporting columns (31) jointly support a top plate (32), a rotatable winding rod (321) is arranged on the top plate (32), two supporting plates (35) are jointly connected with a connecting plate (34), and winding ropes (325) connected with the connecting plate (34) are arranged on the winding rod (321);

a winding motor (322) is arranged on the top plate (32), a driving gear (323) is arranged on an output shaft of the winding motor (322), and a driven gear (324) meshed with the driving gear (323) is arranged on the winding rod (321).

6. The drum-type full-automatic electroplating system according to claim 5, wherein: the support frame (1) is including being located backup pad (11) of processing tank (2) both sides respectively, and backup pad (11) are opened has removal groove (111), and the bottom of support column (31) is equipped with gyro wheel (311) that are located removal groove (111), be equipped with on support column (31) and remove motor (33), be equipped with on the output shaft of removal motor (33) and remove gear (331), be equipped with on backup pad (11) along the length direction of backup pad (11) and be used for removing rack (112) of gear (331) meshing.

7. The application process of the drum-type full-automatic electroplating system as claimed in any one of claims 1 to 6, wherein: the method comprises the following steps:

s1, moving a portal frame (3) to an initial treatment tank (2), loading metal parts into a roller (4), and adding electroplating liquid into each treatment tank (2);

s2, the roller (4) is lowered into the treatment tank (2), the roller (4) is rotated, and electroplating operation is started;

s3, lifting the roller (4), and moving the mounting plate (43) up and down to shake the roller (4);

s4, moving the portal frame (3) to the position of the next processing groove (2), descending the roller (4) into the processing groove (2), rotating the roller (4), and starting electroplating operation;

s5, lifting the roller (4), and moving the mounting plate (43) up and down to shake the roller (4);

s6, repeating the step S4 and the step S5 until the whole electroplating operation is completed, and finally taking out the metal parts in the roller (4).