阅读说明：本技术 一种自动化智能电镀系统 (Automatic change intelligent electroplating system ) 是由 阳新坚 于 2021-07-16 设计创作，主要内容包括：本发明公开了一种自动化智能电镀系统,涉及电镀自动化领域,包括电镀框架,电镀框架内部从左到右依次设置有热浸工位、电解工位、镀锌工位、交换空位、出光工位、彩纯工位、镀后吹干工位和升降上下料工位；电镀框架上在热浸工位、电解工位、镀锌工位、出光工位和彩纯工位位置处均设置有自动化药液循环槽；电镀框架上在镀后吹干工位位置处设置有自动化镀后吹风槽；电镀框架上设置有升降横移运输装置,升降横移运输装置上设置有电镀飞巴。本发明的优点在于,实现电镀流程整体自动化进行,不需人工参与,提高电镀效率,设置有镀后吹干工位对镀件进行自动化镀后吹干,节省人力及空间,提高电镀整体效率。(The invention discloses an automatic intelligent electroplating system, which relates to the field of electroplating automation and comprises an electroplating frame, wherein a hot dipping station, an electrolysis station, a galvanizing station, an exchange vacancy, a light emitting station, a color purity station, a post-plating blow-drying station and a lifting loading and unloading station are sequentially arranged in the electroplating frame from left to right; automatic liquid medicine circulating grooves are formed in the positions of a hot dipping station, an electrolysis station, a galvanizing station, a light emitting station and a color purity station on the electroplating frame; an automatic post-plating air blowing groove is arranged at the position of the post-plating air blowing station on the electroplating frame; the electroplating frame is provided with a lifting and transverse moving conveying device, and the lifting and transverse moving conveying device is provided with an electroplating flying bar. The automatic electroplating device has the advantages that the whole electroplating process is automatically carried out, manual participation is not needed, the electroplating efficiency is improved, the automatic plating and blow-drying station is arranged for automatically plating and blow-drying the plated part, the labor and the space are saved, and the whole electroplating efficiency is improved.)

1. An automatic intelligent electroplating system is characterized by comprising an electroplating frame (9), wherein a hot dipping station (1), an electrolysis station (2), a galvanizing station (3), an exchange vacancy (4), a light emergent station (5), a color purity station (6), a post-plating blow-drying station (7) and a lifting loading and unloading station (8) are sequentially arranged in the electroplating frame (9) from left to right;

automatic liquid medicine circulating tanks (12) are arranged at the positions of the hot dipping station (1), the electrolysis station (2), the galvanizing station (3), the light emitting station (5) and the color purity station (6) on the electroplating frame (9) and are respectively used for carrying out automatic hot dipping, electrolysis, galvanizing, light emitting and color purity on a plated part;

an automatic post-plating air blowing groove (15) is formed in the position of the post-plating air blowing station (7) on the electroplating frame (9) and is used for blowing the inner surface and the outer surface of the electroplated part to be dried after electroplating is finished;

the electroplating frame (9) is provided with a lifting and transverse moving conveying device (10), the lifting and transverse moving conveying device (10) is provided with an electroplating flying bar (11), and the lifting and transverse moving conveying device (10) is used for conveying the electroplating flying bar (11) to a corresponding station for electroplating processing;

and a suction fan (16) is arranged at the top of the electroplating frame (9) and is used for sucking away dust in the electroplating system.

2. The automated intelligent electroplating system of claim 1, wherein the lifting and horizontal moving conveying device (10) comprises a horizontal moving trolley (1001), the horizontal moving trolley (1001) is slidably connected to the electroplating frame (9), one end of the horizontal moving trolley (1001) is fixedly connected with a lifting carriage (1002), a flying bar clamping frame (1003) is slidably connected onto the lifting carriage (1002), and flying bar clamping connectors (1004) are fixedly connected to the left side and the right side of the upper end of the flying bar clamping frame (1003).

3. The automatic intelligent electroplating system of claim 1, wherein the flying bar (11) comprises a flying bar frame (1101), a lifting hook (1107) is fixedly connected to the inner side of the upper end of the flying bar frame (1001), conductive pieces (1102) are fixedly connected to the left side and the right side of the flying bar frame (1101), a conductive rod (1103) is slidably connected in the conductive pieces (1102), a conductive disc (1104) is fixedly connected to the lower end of the conductive rod (1103) through a bolt, a plated piece supporting plate (1105) is fixedly connected to the bottom of the flying bar frame (1101) through a spring bolt, a plated piece guiding sleeve (1106) is arranged at the upper end of the plated piece supporting plate (1105), and a plated piece (1110) is arranged between the plated piece guiding sleeve (1106) and the conductive disc (1104).

4. The automatic intelligent electroplating system of claim 3, wherein two ends of the conductive rod (1103) are fixedly connected with conductive clips (1108), the conductive clips (1108) are V-shaped, the conductive rod (1103) is in sliding connection with the conductive piece (1102) through the conductive clips (1108), and a sealing gasket (1109) is arranged inside the plated piece guide sleeve (1106).

5. The automatic intelligent electroplating system according to claim 1, wherein the automatic liquid medicine circulation tank (12) comprises an electroplating tank body (1201), the electroplating tank body (1201) is fixedly connected to the upper end of an electroplating frame (9), an overflow type liquid level controller (1204) is fixedly connected to the rear side of the electroplating tank body (1201), the overflow type liquid level controller (1204) is communicated with the electroplating tank body (1201) through a pipeline, a liquid medicine tank (13) is arranged below the electroplating tank body (1201) on the electroplating frame (9), the liquid medicine tank (13) is communicated with a liquid medicine circulation pipeline (1203) through a circulation pump (1202), the liquid medicine circulation pipeline (1203) is communicated with the interior of the electroplating tank body (1201) through a pipeline, and an electroplating circulation terminal (14) is arranged in the middle position of the bottom surface of the interior of the electroplating tank body (1201).

6. The automatic intelligent electroplating system of claim 5, wherein the electroplating circulation terminal (14) comprises a circulation pipe body (1401), a liquid discharge sleeve (1402) is fixedly connected to the middle of the outer surface of the circulation pipe body (1401), a liquid discharge end cover (1403) is fixedly connected to the top of the inner side of the liquid discharge sleeve (1402), a limit support plate (1404) is sleeved on the top of the outer side of the liquid discharge sleeve (1402), a protection ring (1405) is sleeved on the side surface of the limit support plate (1404), a protection plate (1406) is arranged on the top of the limit support plate (1404), and a locking ring (1407) is sleeved on the outer side of the protection ring (1405).

7. The automatic intelligent electroplating system of claim 6, wherein a liquid outlet head (1410) is fixedly connected to the top of the circulating pipe body (1401), a plurality of liquid outlet holes are formed in the liquid outlet head (1410), a liquid inlet head (1409) is fixedly connected to the bottom of the circulating pipe body (1401), and the liquid outlet head (1410) is communicated with the liquid medicine circulating pipeline (1203) through the liquid inlet head (1409).

8. The automatic intelligent electroplating system of claim 7, wherein a liquid discharge cylinder (1411) is fixedly connected to the bottom of the circulating pipe body (1401), a liquid discharge head (1408) is fixedly connected to the side of the liquid discharge cylinder (1411), and the liquid discharge cylinder (1411) is communicated with the liquid medicine circulating pipeline (1203) through the liquid discharge head (1408).

9. The automated intelligent electroplating system of claim 1, wherein the automated post-plating blow tank (15) comprises a blow tank body (1501), the blowing tank body (1501) is fixedly connected to the electroplating frame (9), the front side and the rear side of the blowing tank body (1501) are fixedly provided with the flying bar supporting piece (1502) through bolts, an adjusting motor (1505) is fixedly connected with one side of the electroplating frame (9) below the blowing tank body (1501), the output end of the adjusting motor (1505) is fixedly connected with a height adjusting mechanism (1506), two ends of the upper surface of the height adjusting mechanism (1506) are fixedly connected with side air nozzles (1504), the middle part of the upper surface of the height adjusting mechanism (1506) is fixedly connected with a rotary air nozzle (1503), the rotary air nozzle (1503) and the side air nozzle (1504) penetrate through the bottom surface of the air blowing groove body (1501) and extend into the air blowing groove body (1501).

10. The automatic intelligent electroplating system of claim 9, wherein the post-plating blow-drying station (7) comprises a blowing station and a hot air drying station, the rotary air nozzle (1503) and the side air nozzle (1504) in the automatic post-plating blow tank (15) arranged at the blowing station are communicated with a blower, and the rotary air nozzle (1503) and the side air nozzle (1504) in the automatic post-plating blow tank (15) arranged at the hot air drying station are communicated with a hot air blower.

Technical Field

The invention relates to the field of electroplating automation, in particular to an automatic intelligent electroplating system.

Background

Electroplating is a process of plating a thin layer of other metals or alloys on the surface of some metals by using the principle of electrolysis, and is a process of attaching a layer of metal film on the surface of a metal or other material product by using the action of electrolysis, thereby having the effects of preventing metal oxidation (such as corrosion), improving wear resistance, conductivity, light reflection, corrosion resistance (such as copper sulfate and the like), enhancing the appearance and the like. The outer layer of many coins is also plated.

Along with the development of science and technology, the requirements of automation degree, environmental protection and the like are increasingly greater, and the electroplating precision is increasingly higher. The current electroplating production line is adjusted and is plated a position and transport and wantonly need artifical the participation electroplating liquid medicine for there is the error in the liquid medicine control, and it is slow to go out the product speed, and it is difficult to guarantee to electroplate the precision, can't realize full automation and electroplate, and current electroplating is plated the back and is adopted the manual work to weather usually simultaneously, dries, and the quality that artifical laminating staff contact damaged easily or contaminated material influences the product reduces electroplating efficiency.

Disclosure of Invention

For solving above-mentioned technical problem, an automatic change intelligent electroplating system is provided, this technical scheme has solved the current electroplating production line that proposes in the above-mentioned background art and has adjusted and plate a position and transport and need artifical the participation at the electroplating liquid medicine, make liquid medicine control have the error, it is slow to go out the product speed, it is difficult to guarantee to electroplate the precision, can't realize full automated electroplating, current electroplating plate the back and adopt the manual work to weather usually simultaneously, wipe dry, the quality that artifical laminating staff contact damage easily or contaminated material influences the product, reduce the problem of electroplating efficiency.

In order to achieve the above purposes, the technical scheme adopted by the invention is as follows:

an automatic intelligent electroplating system comprises an electroplating frame, wherein a hot dipping station, an electrolysis station, a galvanizing station, an exchange vacancy, a light emitting station, a color purity station, a post-plating blow-drying station and a lifting loading and unloading station are sequentially arranged in the electroplating frame from left to right;

automatic liquid medicine circulating grooves are formed in the positions of a hot dipping station, an electrolysis station, a galvanizing station, a light emitting station and a color purity station on the electroplating frame and are respectively used for carrying out automatic hot dipping, electrolysis, galvanizing, light emitting and color purity on a plated part;

an automatic post-plating air blowing groove is arranged at a post-plating air blowing station on the electroplating frame and is used for blowing the inner surface and the outer surface of the electroplated part to be dried after the electroplating of the electroplated part is finished;

the electroplating frame is provided with a lifting and transverse moving conveying device, the lifting and transverse moving conveying device is provided with an electroplating flying bar, and the lifting and transverse moving conveying device is used for conveying the electroplating flying bar to a corresponding station for electroplating processing;

and the top of the electroplating frame is provided with a suction fan for sucking away dust in the electroplating system.

Preferably, the lifting and horizontal moving conveying device comprises a horizontal moving trolley, the horizontal moving trolley is connected to the electroplating frame in a sliding mode, one end of the horizontal moving trolley is fixedly connected with a lifting sliding frame, the lifting sliding frame is connected with a flying bar clamping frame in a sliding mode, and the left side and the right side of the upper end of the flying bar clamping frame are fixedly connected with flying bar clamping connectors.

Preferably, fly the bus including flying the bus frame, fly the inboard fixedly connected with lifting hook in bus frame upper end, fly the bus frame left and right sides fixedly connected with electrically conductive piece, sliding connection has the conducting rod in the electrically conductive piece, the conducting rod lower extreme passes through bolt fixedly connected with conducting disc, it plates a backup pad through spring bolt fixedly connected with to fly the bus frame bottom, it is provided with a uide bushing of plating to plate a backup pad upper end, it is provided with between a uide bushing and the conducting disc to plate and plate.

Preferably, the two ends of the conductive rod are fixedly connected with conductive elastic pieces, the conductive elastic pieces are in a V shape, the conductive rod is connected with the conductive pieces in a sliding mode through the conductive elastic pieces, and a sealing gasket is arranged inside the guide sleeve of the plated piece.

Preferably, automatic change liquid medicine circulation groove including electroplating the cell body, electroplating cell body fixed connection is in electroplating frame upper end, electroplating cell body rear side fixedly connected with overflow type liquid level controller, overflow type liquid level controller passes through the pipeline intercommunication with the electroplating cell body, electroplating the frame and being provided with the liquid medicine groove below electroplating the cell body, the liquid medicine groove passes through circulating pump and liquid medicine circulation pipeline intercommunication, liquid medicine circulation pipeline passes through the pipeline and electroplates the inside intercommunication of cell body, electroplating the inside bottom surface intermediate position department of cell body is provided with electroplating circulation terminal.

Preferably, the electroplating cycle terminal comprises a cycle pipe body, a liquid discharge sleeve is fixedly connected to the middle of the outer surface of the cycle pipe body, a liquid discharge end cover is fixedly connected to the inner side top of the liquid discharge sleeve, a limiting support plate is sleeved on the outer side top of the liquid discharge sleeve, a protection ring is sleeved on the side face of the limiting support plate, a protection plate is arranged on the top of the limiting support plate, and a locking ring is sleeved on the outer side of the protection ring.

Preferably, the top of the circulating pipe body is fixedly connected with a liquid outlet head, the liquid outlet head is provided with a plurality of liquid outlet holes, the bottom of the circulating pipe body is fixedly connected with a liquid inlet head, and the liquid outlet head is communicated with the liquid medicine circulating pipeline through the liquid inlet head.

Preferably, the bottom of the circulating pipe body is fixedly connected with a liquid discharge barrel, the side edge of the liquid discharge barrel is fixedly connected with a liquid discharge head, and the liquid discharge barrel is communicated with the liquid medicine circulating pipeline through the liquid discharge head.

Preferably, the automatic post-plating air blowing groove comprises an air blowing groove body, the air blowing groove body is fixedly connected to an electroplating frame, the front side and the rear side of the air blowing groove body are fixedly provided with air blowing support pieces through bolts, the electroplating frame is fixedly connected with an adjusting motor on one side below the air blowing groove body, the output end of the adjusting motor is fixedly connected with a height adjusting mechanism, two ends of the upper surface of the height adjusting mechanism are fixedly connected with side air nozzles, the middle part of the upper surface of the height adjusting mechanism is fixedly connected with a rotary air nozzle, and the rotary air nozzle and the side air nozzles all penetrate through the bottom surface of the air blowing groove body and extend to the inside of the air blowing groove body.

Preferably, the post-plating blowing-dry station comprises a blowing station and a hot air drying station, a rotary air nozzle and a side air nozzle in an automatic post-plating blowing groove arranged at the blowing station are communicated with a blower, and the rotary air nozzle and the side air nozzle in the automatic post-plating blowing groove arranged at the hot air drying station are communicated with a hot air blower.

Compared with the prior art, the invention has the advantages that:

1) the flying bars are clamped by the lifting and transverse moving conveying device to convey the electroplating flying bars to corresponding stations for electroplating processing, after the flying bars are clamped by the lifting and transverse moving conveying device at a lifting feeding and discharging station, the flying bars are sequentially conveyed to a hot dipping station, an electrolysis station, a galvanizing station, a light emitting station, a color purity station and a post-plating drying station by a transverse moving trolley at an electroplating frame for corresponding process processing, then the feeding is carried out from the lifting feeding and discharging station, the whole movement process is carried out automatically without manual participation, and the electroplating efficiency is improved;

2) the electroplating device is provided with an automatic liquid medicine circulation tank for electroplating processing, an electroplating circulation terminal is arranged in an electroplating tank body and is communicated with a liquid medicine circulation pipeline, the electroplating circulation terminal is provided with a liquid inlet head and a liquid outlet head which are respectively communicated with a liquid inlet pipeline and a liquid outlet pipeline in the liquid medicine circulation pipeline, the liquid medicine circulation pipeline is communicated with the liquid medicine tank through a circulation pump, liquid medicine circulation is completed between the liquid medicine circulation pipeline and the electroplating tank body through the driving of the circulation pump, and automatic electroplating liquid medicine adjustment is realized.

3) The automatic post-plating air-blowing device is provided with a post-plating air-blowing station for performing post-plating air-blowing on a plated part, the automatic post-plating air-blowing tank is provided with a rotary air nozzle and a side air nozzle for respectively drying the inner surface and the outer surface of the plated part, wherein the rotary air nozzle is arranged in the center of an inner cavity of the plated part when the device is used, the 360-degree phase type dead-angle-free drying of the inner surface of the plated part is facilitated, the side air nozzles are arranged on the left side and the right side of the plated part and used for drying the outer surface of the plated part, and the device is designed to facilitate moisture drying of the inner surface and the outer surface of a product, save labor and space, and realize unmanned automatic post-plating air-blowing of the plated part to the maximum extent.

Drawings

FIG. 1 is a schematic view of a station arrangement of the present invention;

FIG. 2 is a schematic structural view of the present invention;

FIG. 3 is a schematic perspective view of a cross-car conveyor of the present invention;

FIG. 4 is a schematic perspective view of a flying bar according to the present invention;

FIG. 5 is an exploded view of a flying bar according to the present invention;

FIG. 6 is a schematic perspective view of an automated chemical solution circulation tank according to the present invention;

FIG. 7 is a schematic perspective view of an electroplating cycle terminal according to the present invention;

FIG. 8 is an exploded view of the end of a plating cycle of the present invention;

FIG. 9 is a schematic perspective view of an automated post-plating air-blowing slot according to the present invention;

FIG. 10 is a perspective view of an automated post-plating air-blowing slot according to another aspect of the present invention.

The reference numbers in the figures are:

1. a hot dipping station; 2. an electrolysis station; 3. a galvanizing station; 4. exchanging vacant sites; 5. a light emitting station; 6. a color purity station; 7. blowing dry the station after plating; 8. lifting a loading and unloading station; 9. electroplating the frame; 10. a lifting and transverse moving conveying device; 1001. transversely moving the trolley; 1002. a lifting carriage; 1003. a femto clamping frame; 1004. a femto clamp connection; 11. electroplating the flying bars; 1101. a flying chin frame; 1102. a conductive member; 1103. a conductive rod; 1104. a conductive plate; 1105. plating a piece supporting plate; 1106. plating a guide sleeve; 1107. a hook; 1108. a conductive spring plate; 1109. A gasket; 1110. plating a piece; 12. an automated liquid medicine circulation tank; 1201. electroplating a tank body; 1202. a circulation pump; 1203. a liquid medicine circulation pipeline; 1204. an overflow type liquid level controller; 13. a liquid medicine tank; 14. electroplating circulation terminal; 1401. a circulating pipe body; 1402. a drainage sleeve; 1403. a liquid discharge end cover; 1404. a limiting support plate; 1405. a guard ring; 1406. a protection plate; 1407. locking a ring; 1408. a liquid discharge head; 1409. a liquid inlet head; 1410. a liquid outlet head; 1411. a liquid discharge cylinder; 15. automatic post-plating air blowing grooves; 1501. a blowing slot body; 1502. a flying bar support; 1503. rotating the blast nozzle; 1504. a side tuyere; 1505. adjusting the motor; 1506. a height adjustment mechanism; 16. a suction fan.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

Referring to fig. 1-2, an automatic intelligent electroplating system comprises an electroplating frame 9, wherein a hot-dipping station 1, an electrolysis station 2, a galvanizing station 3, an exchange vacancy 4, a light-emitting station 5, a color purity station 6, a post-plating blow-drying station 7 and a lifting loading and unloading station 8 are sequentially arranged in the electroplating frame 9 from left to right;

automatic liquid medicine circulating grooves 12 are respectively arranged at the positions of the hot dipping station 1, the electrolysis station 2, the galvanizing station 3, the light emitting station 5 and the color purity station 6 on the electroplating frame 9 and are respectively used for carrying out automatic hot dipping, electrolysis, galvanizing, light emitting and color purity on a plated piece;

an automatic post-plating air blowing groove 15 is arranged at the position of the post-plating air blowing station 7 on the electroplating frame 9 and is used for blowing the inner surface and the outer surface of the electroplated part to be dried after the electroplating of the electroplated part is finished;

the electroplating frame 9 is provided with a lifting and transverse moving conveying device 10, the lifting and transverse moving conveying device 10 is provided with an electroplating flying bar 11, and the lifting and transverse moving conveying device 10 is used for conveying the electroplating flying bar 11 to a corresponding station for electroplating processing;

the top of the electroplating frame 9 is provided with a suction fan 16 for sucking away dust inside the electroplating system.

Lifting and horizontal moving conveyer 10 includes sideslip platform truck 1001, sideslip platform truck 1001 sliding connection is on electroplating frame 9, sideslip platform truck 1001 one end fixedly connected with lifting and horizontal sliding rack 1002, sliding connection has flying chin joint frame 1003 on lifting and horizontal sliding rack 1002, flying chin joint frame 1003 upper end left and right sides fixedly connected with flying chin joint head 1004, lifting and horizontal moving conveyer 10 goes up and down unloading station 8 will fly chin 11 joint back, through will fly chin in electroplating frame 9 at sideslip platform truck 1002 carry in proper order to hot dipping station 1, electrolysis station 2, galvanization station 3, light-emitting station 5, various pure station 6 and post-plating blow dry station 7 and carry out corresponding process processing, later from the unloading of unloading station 8 on lifting and horizontal moving, the whole motion process automation goes on, do not need artifical the participation.

The flying bar 11 comprises a flying bar rack 1101, the inner side of the upper end of the flying bar rack 1001 is fixedly connected with a lifting hook 1107, the left side and the right side of the flying bar rack 1101 are fixedly connected with conductive pieces 1102, conductive rods 1103 are connected in the conductive pieces 1102 in a sliding manner, the lower ends of the conductive rods 1103 are fixedly connected with conductive discs 1104 through bolts, the bottom of the flying bar rack 1101 is fixedly connected with a plated piece supporting plate 1105 through spring bolts, the upper end of the plated piece supporting plate 1105 is provided with a plated piece guiding sleeve 1106, a plated piece 1110 is arranged between the plated piece guiding sleeve 1106 and the conductive discs 1104, both ends of the conductive rods 1103 are fixedly connected with conductive clips 1108, the conductive clips 1108 are in a V shape, the conductive rods 1103 are connected with the conductive pieces 1102 in a sliding manner through the conductive clips 1108, a sealing gasket 1109 is arranged inside the plated piece guiding sleeve 1106, the flying bar is clamped with the lifting and traversing device 10 through the lifting hook 1107, wherein the conductive rods 1103 are connected with the conductive pieces 1102 in a sliding manner, and the conductive rods 1103 can be connected in the conductive pieces 1102 in a sliding manner, the height of the part to be plated 1110 can be adjusted according to the actual size of the plated part 1110 by supplying voltage and current to the part to be plated 1110, and the electroplating process can be flexibly suitable for products with different sizes and heights.

The automatic chemical liquid circulation tank 12 comprises an electroplating tank body 1201, the electroplating tank body 1201 is fixedly connected to the upper end of an electroplating frame 9, an overflow type liquid level controller 1204 is fixedly connected to the rear side of the electroplating tank body 1201, the overflow type liquid level controller 1204 is communicated with the electroplating tank body 1201 through a pipeline, the overflow type liquid level controller 1204 can control the liquid level inside the electroplating tank body 1201, a chemical liquid tank 13 is arranged below the electroplating tank body 1201 on the electroplating frame 9, the chemical liquid tank 13 is communicated with a chemical liquid circulation pipeline 1203 through a circulation pump 1202, the chemical liquid circulation pipeline 1203 is communicated with the inside of the electroplating tank body 1201 through a pipeline, an electroplating circulation terminal 14 is arranged at the middle position of the bottom surface inside the electroplating tank body 1201, the electroplating circulation terminal 14 comprises a circulation pipe body 1401, a liquid discharge sleeve 1402 is fixedly connected to the middle part of the outer surface of the circulation pipe body 1401, a liquid discharge end cover 1403 is fixedly connected to the top of the inner side of the liquid discharge sleeve 1402, a limit support plate 1404 is sleeved on the top of the outer side of the liquid discharge sleeve 1402, the side surface of the limiting support plate 1404 is sleeved with a protective ring 1405, the top of the limiting support plate 1404 is provided with a protective plate 1406, the outer side of the protective ring 1405 is sleeved with a locking ring 1407, the top of the circulating tube 1401 is fixedly connected with a liquid outlet head 1410, the liquid outlet head 1410 is provided with a plurality of liquid outlet holes, the bottom of the circulating tube 1401 is fixedly connected with a liquid inlet head 1409, the liquid outlet head 1410 is communicated with a liquid medicine circulating pipeline 1203 through the liquid inlet head 1409, the bottom of the circulating tube 1401 is fixedly connected with a liquid discharge tube 1411, the side edge of the liquid discharge tube 1411 is fixedly connected with a liquid discharge head 1408, the liquid discharge tube 1411 is communicated with the liquid medicine circulating pipeline 1203 through the liquid discharge head 1408, the circulating tube 1401 is simultaneously provided with the liquid discharge head 1408 and the liquid inlet head 1409, the liquid discharge head 1408 and the liquid inlet head 1409 are respectively communicated with a liquid inlet pipeline and a liquid discharge pipeline in the liquid medicine circulating pipeline 1203, the automatic electroplating liquid medicine can be perfectly adapted to circulate, and the requirements of accurately positioning and cleaning integration can be met, and the liquid medicine is automatically controlled.

The automatic post-plating air-blowing groove 15 comprises an air-blowing groove body 1501, the air-blowing groove body 1501 is fixedly connected to an electroplating frame 9, a flying bar supporting piece 1502 is fixedly installed on the front side and the rear side of the air-blowing groove body 1501 through bolts, the flying bar supporting piece 1502 is inserted into a conductive plug on a conductive piece 1102 and used for positioning and supporting the flying bar 11, an adjusting motor 1505 is fixedly connected to one side of the electroplating frame 9 below the air-blowing groove body 1501, a height adjusting mechanism 1506 is fixedly connected to the output end of the adjusting motor 1505, side air nozzles 1504 are fixedly connected to the two ends of the upper surface of the height adjusting mechanism 1506, a rotary air nozzle 1503 is fixedly connected to the middle of the upper surface of the height adjusting mechanism 1506, the rotary air nozzle 1503 and the side air nozzle 1504 both penetrate through the bottom surface of the air-blowing groove body 1501 and extend to the inside the air-blowing groove body 1501, a post-plating air-blowing station 7 comprises an air-blowing station and a hot air drying station, the rotary air nozzle 1504 and the side air nozzle 1503 in the automatic post-plating air-blowing groove 15 arranged at the air-blowing station are communicated with an air blower, the automatic plating rear blowing groove 15 that sets up of hot-blast stoving station department rotatory tuyere 1503 and side tuyere 1504 and air heater intercommunication, rotatory tuyere 1503 and side tuyere 1504 weathers the interior surface of piece 1110 respectively, rotatory tuyere 1503 arranges a inner chamber center in during the use wherein, 360 degrees phase formula no dead angle of being convenient for weathers a piece internal surface, side tuyere 1504 installs in the piece left and right sides of plating, weathers a piece surface, design this device is favorable to the product interior surface moisture to weather, adopt adjustment motor 1505 and height adjusting mechanism 1506 to adjust the height of rotation tuyere 1503 and side tuyere 1504 simultaneously, all blow to weather each high position department of plating, use manpower sparingly and space, realize in the at utmost that unmanned automatic plating is blown to dry after plating.

The working process of the invention is as follows: lifting and horizontal moving conveyer 10 goes up unloading station 8 in the lift and goes up and down through flying a joint 1004 with fly lifting hook 1107 joint on the ba 11, later lifting and horizontal moving conveyer 10 sideslip platform truck 1002 will fly ba 11 and carry to hot dipping station 1 in proper order on electroplating frame 9, electrolysis station 2, galvanization station 3, light-emitting station 5, various pure station 6 and dry station 7 after plating, when transporting to corresponding the station, lifting and horizontal moving carriage 1002 drives and flies a joint frame 1003 and slides from top to bottom and will fly ba 11 and remove to corresponding inside the technology groove and carry out corresponding process processing, lifting and horizontal moving conveyer 10 will fly ba 11 and carry to go up unloading station 8 and carry out the unloading after the processing is accomplished.

In conclusion, the invention has the advantages that the automatic flying bar transportation is carried out by adopting the lifting and transverse moving transportation device, so that the whole electroplating process is carried out automatically without manual participation, the electroplating efficiency is improved, meanwhile, the post-plating blow-drying station is arranged to carry out automatic plating and then blow-drying on the plated piece, the labor and the space are saved, and the whole electroplating efficiency is improved.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.