CN111304727A

CN111304727A - Electroplating system and electroplating method

Info

Publication number: CN111304727A
Application number: CN202010343368.3A
Authority: CN
Inventors: 侯光微
Original assignee: 侯光微
Current assignee: Shenzhen Lianfeng Hardware Plastic Products Co.,Ltd.
Priority date: 2020-04-27
Filing date: 2020-04-27
Publication date: 2020-06-19
Anticipated expiration: 2040-04-27
Also published as: CN111304727B

Abstract

The invention relates to the field of electroplating, in particular to an electroplating system and an electroplating method. The invention relates to the field of electroplating, in particular to an electroplating system which comprises a cathode column, a part supporting plate, a side baffle, a triangular block, a T-shaped frame, a fixed sleeve, a fastening screw, an anode column and an electroplating solution box. The left side fixedly connected with side shield of part layer board, the fixed cover of downside right-hand member fixedly connected with of part layer board, there is fastening screw through threaded connection on the fixed cover, T shape frame is sheathe in at fixed the going up of left and right direction upwards sliding connection, fastening screw pushes up on T shape frame, the equal fixedly connected with in both ends three hornblocks around the T shape frame right part, the oblique relative setting of two three hornblocks, two three hornblocks all are located the upside of part layer board, the part layer board is located the plating solution box, both ends are provided with negative pole post and positive pole post respectively about the plating solution box.

Description

Electroplating system and electroplating method

Technical Field

The invention relates to the field of electroplating, in particular to an electroplating system and an electroplating method.

Background

The application number is electroplating device and electroplating device that CN201821163912.0 disclosed, the utility model provides an electroplating device and electroplating device, cooperate in order to electroplate the circuit board with the electroplating bath, electroplating device includes actuating mechanism, the drive is connected in actuating mechanism and the installed part of making by conducting material, a plurality of fixed mounting are with the anchor clamps of clamping circuit board on the installed part, anchor clamps are made by conducting material, each anchor clamps all is connected with the installed part electricity, the installed part hangs in the top of electroplating bath, anchor clamps and the circuit board of clamp on anchor clamps all are fixed in the installed part, actuating mechanism is used for driving the installed part, in order to drive anchor clamps and circuit board through the installed part and move in the lump, and make the circuit board move to the electroplating bath in. The utility model discloses an electroplating device can avoid the electroplating time of circuit board inconsistent, and the voltage, electric current and the electroplating time of each circuit board are all unanimous, and then improve the uniformity of each circuit board electroplating effect, and then guarantee that the copper thickness after same batch of circuit board electroplating treatment is unanimous. However, this patent does not allow the parts to be moved in the plating solution for plating.

Disclosure of Invention

The invention provides an electroplating system, which has the beneficial effects that parts can move in electroplating solution to be electroplated, and the electroplating effect is improved.

The invention relates to the field of electroplating, in particular to an electroplating system which comprises a cathode column, a part supporting plate, a side baffle, a triangular block, a T-shaped frame, a fixed sleeve, a fastening screw, an anode column and an electroplating solution box.

The left side fixedly connected with side shield of part layer board, the fixed cover of downside right-hand member fixedly connected with of part layer board, there is fastening screw through threaded connection on the fixed cover, T shape frame is sheathe in at fixed the going up of left and right direction upwards sliding connection, fastening screw pushes up on T shape frame, the equal fixedly connected with in both ends three hornblocks around the T shape frame right part, the oblique relative setting of two three hornblocks, two three hornblocks all are located the upside of part layer board, the part layer board is located the plating solution box, both ends are provided with negative pole post and positive pole post respectively about the plating solution box.

Electroplating system still includes the disk, the spacer pin, the contact piece, the contact post, the horizontal piece, circular separation blade and spring housing post, the lower extreme fixedly connected with disk of negative pole post, the downside fixedly connected with contact post of disk, the downside fixedly connected with contact piece of contact post, the middle part of horizontal piece is rotated and is connected on the contact post, fixedly connected with spacer pin on the contact post, disk and spacer pin are located the upper and lower both sides of horizontal piece respectively, the equal fixedly connected with spring housing post in both ends around the horizontal piece downside, two spring housing posts are respectively at the front and back both ends of vertical sliding connection at the part layer board, the equal fixedly connected with circular separation blade of lower extreme of two spring housing posts, compression spring has all been cup jointed to the lower part of two spring housing posts, two compression springs all are located the downside of part layer board, two compression springs are located the upside of.

Electroplating system still includes left collets, insulator spindle, circle carousel and motor, and negative pole post fixed connection is on left collets, fixedly connected with motor on the left collets, fixedly connected with circle carousel on the output shaft of motor, and the one end of insulator spindle is articulated to be connected at the eccentric position of circle carousel, and the other end of insulator spindle is articulated to be connected on the horizontal piece.

Electroplating system still includes right angle support I, anodal post, right angle support II, electric putter, trapezoidal slide rail and dwang, right angle support I fixed connection is at the right-hand member of electroplating liquid box, the upper portion fixed connection of anodal post is on right angle support I, the dwang sets up the left part at right angle support I, the trapezoidal slide rail of left end fixedly connected with of dwang, the vertical setting of trapezoidal slide rail, the right-hand member sliding connection of left side collets is on trapezoidal slide rail, fixedly connected with right angle support II on the dwang, fixedly connected with electric putter on the right angle support II, electric putter's expansion end fixed connection is at the upside of left collets.

Electroplating system still includes the screw thread short column, and right-angle support I's left part fixedly connected with screw thread short column, the right-hand member of dwang is rotated and is connected on the screw thread short column, and there is the nut upper end of screw thread short column through threaded connection, and the nut is pressed the upside at the dwang.

The electroplating system further comprises a front box cover, the front side of the electroplating liquid box is detachably connected with the front box cover through threads, and a dense rubber strip is arranged between the front box cover and the electroplating liquid box.

Electroplating system still includes horizontal axle, shallow frid, hand capstan, spacing ring and shallow slot, and both ends rotate respectively and connect in the left and right sides of electroplating liquid box about the horizontal axle, and horizontal epaxial fixedly connected with shallow frid is provided with the shallow slot on the shallow frid, and the equal fixedly connected with spacing ring in both ends about the horizontal axle, two spacing rings respectively with the left and right sides laminating of electroplating liquid box, the right-hand member fixedly connected with hand capstan of horizontal axle.

The electroplating system further comprises a bottom stirring rod, an inclined connecting rod and an extension rod, the right part of the transverse shaft is fixedly connected with the extension rod, one end of the inclined connecting rod is hinged to the outer end of the extension rod, the other end of the inclined connecting rod is fixedly connected with the bottom stirring rod, and the bottom stirring rod is located at the bottom of the electroplating liquid box.

A method for electroplating by an electroplating system comprises the following steps:

s1, placing the part on the part supporting plate, enabling the left side of the part to lean against the side baffle, and clamping the left side and the right side of the part by the side baffle and the two triangular blocks;

s2, placing electroplating solution into the electroplating solution box, pressing the upper side of the cathode column on the part, and electrifying the cathode column and the anode column;

s3, adding metal electrolyte into the shallow grooves on the shallow groove plates, and adding the metal electrolyte into electroplating solution to uniformly add the metal electrolyte into the electroplating solution;

and S4, the part supporting plate and the part rotate and shake around the axis of the contact column, and further the part moves in the electroplating solution to be electroplated.

The electroplating system has the beneficial effects that:

the electroplating system can enable the parts to move in the electroplating solution for electroplating, and improves the electroplating effect. The part is placed on the part supporting plate, the left side of the part leans against the side baffle, the T-shaped frame can slide left and right on the fixing sleeve, the two triangular blocks are driven to slide left and right, the two triangular blocks can be pressed on the right side of the part when sliding left and right, the left and right sides of the part are clamped tightly by the side baffle and the two triangular blocks, the two triangular blocks are arranged oppositely in an inclined mode, the part is driven to a front and back central position by the two triangular blocks, and the T-shaped frame can be fixed by rotating the fastening screw; and (4) putting electroplating solution into the electroplating solution box, pressing the upper side of the cathode column on the part, and electrifying the cathode column and the anode column to electroplate the part. When the part supporting plate moves, the part moves in the electroplating solution to be electroplated, so that the electroplating effect is improved.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic diagram of the overall structure of an electroplating system and an electroplating method according to the present invention;

FIG. 2 is a schematic diagram of the overall structure of an electroplating system and an electroplating method according to the present invention;

FIG. 3 is a schematic structural diagram of a left insulating block;

FIG. 4 is a first schematic view of the cross piece and part pallet;

FIG. 5 is a second schematic structural view of the cross piece and the part pallet;

FIG. 6 is a schematic structural diagram of a right-angle bracket I;

FIG. 7 is a schematic view of a structure of an electroplating solution box;

fig. 8 is a schematic view of a transverse axis.

In the figure: a left insulating block 1; a cathode pillar 101; a wafer 102; a stopper pin 103; a contact piece 104; contact posts 105; an insulating rod 106; a circular turntable 107; a motor 108; a transverse sheet 2; a nose bar 201; a hand screw 202; a circular stopper 203; a spring pocket post 204; a part pallet 3; side dams 301; a triangular block 302; a T-shaped frame 303; a securing sleeve 304; a fastening screw 305; a right angle bracket I4; an anode column 401; a threaded stud 402; a right angle bracket II 403; an electric push rod 404; a trapezoidal slide rail 405; rotating the rod 406; an electroplating solution box 5; a front box cover 501; a transverse shaft 6; a shallow groove plate 601; a bottom paddle 602; an inclined link 603; an extension rod 604; a hand-operated dial 605; a stop collar 606; shallow grooves 607.

Detailed Description

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention. Furthermore, the terms "first", "second", etc. 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," "second," etc. 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 otherwise specified.

The first embodiment is as follows:

the following describes the present embodiment with reference to fig. 1 to 8, and the present invention relates to the field of electroplating, and more specifically to an electroplating system, which includes a cathode column 101, a part pallet 3, a side baffle 301, a triangular block 302, a T-shaped frame 303, a fixing sleeve 304, a fastening screw 305, an anode column 401 and an electroplating solution box 5.

The left side fixedly connected with side shield 301 of part layer board 3, the fixed cover 304 of the downside right-hand member fixedly connected with of part layer board 3, there is fastening screw 305 through threaded connection on fixed cover 304, T shape frame 303 is sliding connection on fixed cover 304 about the direction, fastening screw 305 pushes up on T shape frame 303, the equal fixedly connected with three hornblocks 302 in both ends around the T shape frame 303 right part, two triangle hornblocks 302 set up to one side relatively, two triangle hornblocks 302 all are located the upside of part layer board 3, part layer board 3 is located electroplating liquid box 5, both ends are provided with negative pole post 101 and positive pole post 401 respectively about electroplating liquid box 5. When the part fixing device is used, a part is placed on the part supporting plate 3, the left side of the part is enabled to lean against the side baffle 301, the T-shaped frame 303 can slide left and right on the fixing sleeve 304, the two triangular blocks 302 are driven to slide left and right, the two triangular blocks 302 can be pressed on the right side of the part when sliding left and right, the left side and the right side of the part are clamped by the side baffle 301 and the two triangular blocks 302, the two triangular blocks 302 are arranged oppositely, the part is driven to a front and back central position by the two triangular blocks 302, and the T-shaped frame 303 can be fixed by rotating the fastening screw 305; the plating solution is put in the plating solution tank 5, the upper side of the cathode column 101 is pressed against the component, and the component is plated by applying current to the cathode column 101 and the anode column 401. When the part supporting plate 3 moves, the part moves in the electroplating solution to be electroplated, so that the electroplating effect is improved.

The second embodiment is as follows:

referring to fig. 1-8, the embodiment is described, the electroplating system further includes a wafer 102, a limit pin 103, a contact piece 104, a contact post 105, a cross piece 2, a circular blocking piece 203 and a spring sleeve post 204, the lower end of the cathode post 101 is fixedly connected with the wafer 102, the lower side of the wafer 102 is fixedly connected with the contact post 105, the lower side of the contact post 105 is fixedly connected with the contact piece 104, the middle of the cross piece 2 is rotatably connected to the contact post 105, the limit pin 103 is fixedly connected to the contact post 105, the wafer 102 and the limit pin 103 are respectively located at the upper and lower sides of the cross piece 2, the front and rear ends of the lower side of the cross piece 2 are respectively fixedly connected with the spring sleeve post 204, the two spring sleeve posts 204 are respectively vertically and slidably connected to the front and rear ends of the part supporting plate 3, the lower ends of the two spring sleeve posts 204 are respectively fixedly connected with the circular blocking piece 203, the lower portions of, the two compression springs are respectively positioned at the upper sides of the two circular blocking pieces 203. The two compression springs give the part pallet 3 an upward spring force, which causes the part pallet 3 to move upward, which causes the contact piece 104 to come into contact with the part, thereby making a connection between the cathode pillar 101 and the part. The transverse sheet 2 can rotate and rock by taking the axis of the contact column 105 as a shaft, and then drives the part supporting plate 3 and the part to rotate and rock by taking the axis of the contact column 105 as a shaft, so that the part is further moved in electroplating liquid to be electroplated, and the electroplating effect is improved.

The third concrete implementation mode:

the following describes the present embodiment with reference to fig. 1 to 8, the electroplating system further includes a left insulating block 1, an insulating rod 106, a circular turntable 107 and a motor 108, the cathode column 101 is fixedly connected to the left insulating block 1, the motor 108 is fixedly connected to the left insulating block 1, the circular turntable 107 is fixedly connected to an output shaft of the motor 108, one end of the insulating rod 106 is hinged to an eccentric position of the circular turntable 107, and the other end of the insulating rod 106 is hinged to the cross piece 2. The motor 108 drives the circular turntable 107 to rotate, and when the circular turntable 107 rotates, the insulating rod 106 drives the transverse sheet 2 to rotate and rock by taking the axis of the contact column 105 as a shaft, so as to drive the part supporting plate 3 and the parts to rotate and rock by taking the axis of the contact column 105 as a shaft.

The fourth concrete implementation mode:

this embodiment is described below with reference to fig. 1 to 8, the electroplating system further includes a right-angle support I4, an anode column 401, a right-angle support II403, an electric push rod 404, a trapezoidal slide rail 405 and a rotating rod 406, the right-angle support I4 is fixedly connected to the right end of the electroplating solution box 5, the upper portion of the anode column 401 is fixedly connected to the right-angle support I4, the rotating rod 406 is arranged at the left portion of the right-angle support I4, the left end of the rotating rod 406 is fixedly connected to the trapezoidal slide rail 405, the trapezoidal slide rail 405 is vertically arranged, the right end of the left insulating block 1 is slidably connected to the trapezoidal slide rail 405, the right-angle support II403 is fixedly connected to the rotating rod 406, the electric push rod 404 is fixedly connected to the right-angle support II. Right angle support I4 supports anode column 401, and electric putter 404 drives left collets 1 and reciprocates when flexible, and then drives part layer board 3 and part and reciprocate, and then the degree of depth of control part insertion plating solution in.

The fifth concrete implementation mode:

referring to fig. 1-8, the electroplating system further includes a threaded stud 402, the left portion of the right-angle bracket I4 is fixedly connected with the threaded stud 402, the right end of the rotating rod 406 is rotatably connected to the threaded stud 402, the upper end of the threaded stud 402 is connected with a nut through threads, and the nut is pressed on the upper side of the rotating rod 406. The rotating rod 406 can rotate by taking the axis of the threaded stud 402 as an axis, so as to drive the part supporting plate 3 to rotate by taking the axis of the threaded stud 402 as an axis, and adjust the position of the part supporting plate 3; the rotating rod 406 can be fixed by pressing the rotating nut on the rotating rod 406, and then the part supporting plate 3 is fixed.

The sixth specific implementation mode:

the embodiment is described below with reference to fig. 1 to 8, the electroplating system further includes a front box cover 501, the front side of the electroplating solution box 5 is detachably connected with the front box cover 501 through a screw thread, and a dense rubber strip is arranged between the front box cover 501 and the electroplating solution box 5. The electroplating solution box 5 can be conveniently cleaned after the front box cover 501 is detached.

The seventh embodiment:

the present embodiment is described below with reference to fig. 1 to 8, the electroplating system further includes a transverse shaft 6, a shallow groove plate 601, a hand-turning disc 605, a limit ring 606 and a shallow groove 607, the left and right ends of the transverse shaft 6 are respectively rotatably connected to the left and right sides of the electroplating solution box 5, the shallow groove plate 601 is fixedly connected to the transverse shaft 6, the shallow groove 607 is provided on the shallow groove plate 601, the limit ring 606 is fixedly connected to both the left and right ends of the transverse shaft 6, the two limit rings 606 are respectively attached to the left and right sides of the electroplating solution box 5, and the hand-turning disc 605 is fixedly connected to the right end of the transverse shaft 6. The metal electrolyte is added into the shallow grooves 607 on the shallow groove plate 601, the metal electrolyte can be flatly spread on the shallow groove plate 601, at the moment, the hand rotating disc 605 is rotated to drive the transverse shaft 6 to rotate, and then the metal electrolyte in the shallow grooves 607 is driven to be added into the electroplating solution, the shallow grooves 607 enlarge the flatly spread area of the metal electrolyte, and the metal electrolyte is uniformly added into the electroplating solution.

The specific implementation mode is eight:

referring to fig. 1-8, the electroplating system further includes a bottom stirring rod 602, an inclined connecting rod 603 and an extension rod 604, the extension rod 604 is fixedly connected to the right portion of the transverse shaft 6, one end of the inclined connecting rod 603 is hinged to the outer end of the extension rod 604, the other end of the inclined connecting rod 603 is fixedly connected to the bottom stirring rod 602, and the bottom stirring rod 602 is located at the bottom of the electroplating solution box 5. When the hand-rotating disk 605 drives the transverse shaft 6 to rotate, the inclined connecting rod 603 drives the bottom stirring rod 602 to move back and forth, so as to accelerate the mixing of the metal electrolyte and the electroplating solution.

The specific implementation method nine:

referring to fig. 1-8, the electroplating system further includes a protruding rod 201 and a hand screw 202, the protruding rod 201 is fixedly connected to the left side of the cross piece 2, the hand screw 202 is connected to the protruding rod 201 through a screw thread, and the hand screw 202 presses on the side baffle 301. When the hand screw 202 is rotated to move downward relative to the protruding rod 201, the side baffle 301 and the part supporting plate 3 can be driven to move downward, and further the part is driven to be disconnected from the cathode column 10, and the electroplating is finished.

s1, placing the part on the part supporting plate 3, enabling the left side of the part to lean against the side baffle 301, and clamping the left side and the right side of the part by the side baffle 301 and the two triangular blocks 302;

s2, putting the plating solution into the plating solution box 5, pressing the upper side of the cathode column 101 on the part, and electrifying the cathode column 101 and the anode column 401;

s3, adding metal electrolyte into the shallow grooves 607 on the shallow groove plate 601, and adding the metal electrolyte in the shallow grooves 607 into the electroplating solution to uniformly add the metal electrolyte into the electroplating solution;

s4, the part pallet 3 and the parts are rotationally shaken around the axis of the contact post 105, and the parts are further moved in the plating solution to be plated.

The working principle of the invention is as follows: when the part fixing device is used, a part is placed on the part supporting plate 3, the left side of the part is enabled to lean against the side baffle 301, the T-shaped frame 303 can slide left and right on the fixing sleeve 304, the two triangular blocks 302 are driven to slide left and right, the two triangular blocks 302 can be pressed on the right side of the part when sliding left and right, the left side and the right side of the part are clamped by the side baffle 301 and the two triangular blocks 302, the two triangular blocks 302 are arranged oppositely, the part is driven to a front and back central position by the two triangular blocks 302, and the T-shaped frame 303 can be fixed by rotating the fastening screw 305; the plating solution is put in the plating solution tank 5, the upper side of the cathode column 101 is pressed against the component, and the component is plated by applying current to the cathode column 101 and the anode column 401. When the part supporting plate 3 moves, the part moves in the electroplating solution to be electroplated, so that the electroplating effect is improved. The two compression springs give the part pallet 3 an upward spring force, which causes the part pallet 3 to move upward, which causes the contact piece 104 to come into contact with the part, thereby making a connection between the cathode pillar 101 and the part. The transverse sheet 2 can rotate and rock by taking the axis of the contact column 105 as a shaft, and then drives the part supporting plate 3 and the part to rotate and rock by taking the axis of the contact column 105 as a shaft, so that the part is further moved in electroplating liquid to be electroplated, and the electroplating effect is improved. The motor 108 drives the circular turntable 107 to rotate, and when the circular turntable 107 rotates, the insulating rod 106 drives the transverse sheet 2 to rotate and rock by taking the axis of the contact column 105 as a shaft, so as to drive the part supporting plate 3 and the parts to rotate and rock by taking the axis of the contact column 105 as a shaft. Right angle support I4 supports anode column 401, and electric putter 404 drives left collets 1 and reciprocates when flexible, and then drives part layer board 3 and part and reciprocate, and then the degree of depth of control part insertion plating solution in. The rotating rod 406 can rotate by taking the axis of the threaded stud 402 as an axis, so as to drive the part supporting plate 3 to rotate by taking the axis of the threaded stud 402 as an axis, and adjust the position of the part supporting plate 3; the rotating rod 406 can be fixed by pressing the rotating nut on the rotating rod 406, and then the part supporting plate 3 is fixed. The metal electrolyte is added into the shallow grooves 607 on the shallow groove plate 601, the metal electrolyte can be flatly spread on the shallow groove plate 601, at the moment, the hand rotating disc 605 is rotated to drive the transverse shaft 6 to rotate, and then the metal electrolyte in the shallow grooves 607 is driven to be added into the electroplating solution, the shallow grooves 607 enlarge the flatly spread area of the metal electrolyte, and the metal electrolyte is uniformly added into the electroplating solution. When the hand-rotating disk 605 drives the transverse shaft 6 to rotate, the inclined connecting rod 603 drives the bottom stirring rod 602 to move back and forth, so as to accelerate the mixing of the metal electrolyte and the electroplating solution. When the hand screw 202 is rotated to move downward relative to the protruding rod 201, the side baffle 301 and the part supporting plate 3 can be driven to move downward, and further the part is driven to be disconnected from the cathode column 10, and the electroplating is finished.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides an electroplating system, includes negative pole post (101), part layer board (3), side shield (301), triangle piece (302), T shape frame (303), fixed cover (304), fastening screw (305), anode column (401) and electroplating liquid box (5), its characterized in that: left side fixedly connected with side shield (301) of part layer board (3), the fixed cover of downside right-hand member fixedly connected with (304) of part layer board (3), there are fastening screw (305) through threaded connection on fixed cover (304), sliding connection is on fixed cover (304) about direction on T shape frame (303), equal fixedly connected with triangle piece (302) in both ends around T shape frame (303) right part, the slope of two triangle pieces (302) sets up relatively, two triangle pieces (302) all are located the upside of part layer board (3), part layer board (3) are located electroplating solution box (5), both ends are provided with negative pole post (101) and positive pole post (401) respectively about electroplating solution box (5).

2. An electroplating system according to claim 1, wherein: the electroplating system also comprises a wafer (102), a limiting pin (103), a contact piece (104), a contact column (105), a cross piece (2), a circular blocking piece (203) and spring sleeve columns (204), wherein the lower end of the cathode column (101) is fixedly connected with the wafer (102), the lower side of the wafer (102) is fixedly connected with the contact column (105), the lower side of the contact column (105) is fixedly connected with the contact piece (104), the middle part of the cross piece (2) is rotatably connected to the contact column (105), the limiting pin (103) is fixedly connected to the contact column (105), the wafer (102) and the limiting pin (103) are respectively positioned at the upper side and the lower side of the cross piece (2), the front end and the rear end of the lower side of the cross piece (2) are respectively and fixedly connected with the spring sleeve columns (204), the two spring sleeve columns (204) are respectively and vertically and slidably connected to the front end and the rear end of the part supporting plate (3), the lower, the lower parts of the two spring sleeve columns (204) are respectively sleeved with a compression spring, the two compression springs are respectively positioned on the lower sides of the part supporting plates (3), and the two compression springs are respectively positioned on the upper sides of the two circular blocking pieces (203).

3. An electroplating system according to claim 2, wherein: the electroplating system further comprises a left insulating block (1), an insulating rod (106), a round turntable (107) and a motor (108), the cathode column (101) is fixedly connected to the left insulating block (1), the motor (108) is fixedly connected to the left insulating block (1), the round turntable (107) is fixedly connected to an output shaft of the motor (108), one end of the insulating rod (106) is hinged to the eccentric position of the round turntable (107), and the other end of the insulating rod (106) is hinged to the cross piece (2).

4. An electroplating system according to claim 3, wherein: electroplating system still includes right angle support I (4), anode column (401), right angle support II (403), electric putter (404), trapezoidal slide rail (405) and dwang (406), right angle support I (4) fixed connection is at the right-hand member of electroplating liquid box (5), the upper portion fixed connection of anode column (401) is on right angle support I (4), dwang (406) set up the left part in right angle support I (4), the left end fixedly connected with trapezoidal slide rail (405) of dwang (406), trapezoidal slide rail (405) vertical setting, the right-hand member sliding connection of left side collets (1) is on trapezoidal slide rail (405), fixedly connected with right angle support II (403) on dwang (406), fixedly connected with electric putter (404) on right angle support II (403), the movable end fixed connection of electric putter (404) is at the upside of left collets (1).

5. An electroplating system according to claim 4, wherein: the electroplating system further comprises a threaded short column (402), the left part of the right-angle support I (4) is fixedly connected with the threaded short column (402), the right end of the rotating rod (406) is rotatably connected onto the threaded short column (402), the upper end of the threaded short column (402) is connected with a nut through threads, and the nut is pressed on the upper side of the rotating rod (406).

6. An electroplating system according to claim 5, wherein: the electroplating system further comprises a front box cover (501), the front side of the electroplating liquid box (5) is detachably connected with the front box cover (501) through threads, and a dense rubber strip is arranged between the front box cover (501) and the electroplating liquid box (5).

7. An electroplating system according to claim 6, wherein: electroplating system still includes horizontal axle (6), shallow slot board (601), hand capstan (605), spacing ring (606) and shallow slot (607), both ends rotate respectively and connect the left and right sides in electroplating liquid box (5) about horizontal axle (6), fixedly connected with shallow slot board (601) on horizontal axle (6), be provided with shallow slot (607) on shallow slot board (601), the equal fixedly connected with spacing ring (606) in both ends about horizontal axle (6), two spacing rings (606) are laminated with the left and right sides of electroplating liquid box (5) respectively, the right-hand member fixedly connected with hand capstan (605) of horizontal axle (6).

8. An electroplating system according to claim 7, wherein: the electroplating system further comprises a bottom stirring rod (602), an inclined connecting rod (603) and an extension rod (604), the right part of the transverse shaft (6) is fixedly connected with the extension rod (604), one end of the inclined connecting rod (603) is hinged to the outer end of the extension rod (604), the other end of the inclined connecting rod (603) is fixedly connected with the bottom stirring rod (602), and the bottom stirring rod (602) is located at the bottom of the electroplating liquid box (5).

9. An electroplating system according to claim 8, wherein: the electroplating system further comprises a convex rod (201) and a hand-screwed screw (202), the left side of the transverse sheet (2) is fixedly connected with the convex rod (201), the convex rod (201) is connected with the hand-screwed screw (202) through threads, and the hand-screwed screw (202) is pressed on the side baffle (301).

10. The method of claim 9, wherein the electroplating system comprises:

s1, placing the part on the part supporting plate (3) so that the left side of the part leans against the side baffle (301), and clamping the left side and the right side of the part by the side baffle (301) and the two triangular blocks (302);

s2, putting the plating solution into the plating solution box (5), pressing the upper side of the cathode column (101) on the part, and electrifying the cathode column (101) and the anode column (401);

s3, adding metal electrolyte into the shallow grooves (607) on the shallow groove plate (601), and adding the metal electrolyte in the shallow grooves (607) into electroplating solution to uniformly add the metal electrolyte into the electroplating solution;

s4, the part supporting plate (3) and the parts rotate and shake around the axis of the contact column (105), and the parts are further moved in the electroplating solution to be electroplated.