CN215976121U - Steel wire electroplating device capable of improving electroplating efficiency - Google Patents

Abstract

The utility model relates to a steel wire electroplating device capable of improving electroplating efficiency, which comprises an electroplating pool, wherein a circulating pool is arranged below the electroplating pool, two ends of the circulating pool are respectively and rotatably connected with an insulating wire support frame, the two wire support frames are parallel to each other, the electroplating pool is arranged in the circulating pool and is positioned between the two wire support frames, the upper edge of the electroplating pool is lower than the upper edge of the wire support frames, a cross beam parallel to the wire support frames is arranged above the electroplating pool, two ends of the cross beam extend out of the circulating pool and are respectively connected with an upright post, the upright post is fixedly arranged, a press roller seat vertical to the wire support frames is connected onto the cross beam, two ends of the press roller seat respectively extend above the two wire support frames and are respectively and rotatably connected with conductive press rollers in one-to-one correspondence with the two wire support frames, the press rollers are abutted against the corresponding wire support frames, a vibration motor is fixedly connected onto the cross beam, the press rollers are connected with a power supply cathode, an anode plate is arranged in the electroplating pool, the anode plate is connected with a power supply anode.

Description

Steel wire electroplating device capable of improving electroplating efficiency

Technical Field

The utility model relates to a steel wire electroplating device capable of improving electroplating efficiency.

Background

In the electroplating process of the steel wire, the electroplating efficiency and the electroplating quality of the steel wire are mainly influenced by the quality of a plating solution and the current density, the fresher the plating solution is, the smaller the electroplating current density is, the higher the electroplating efficiency is, and the better the electroplating quality is, and under the condition that the plating solution and the current density are normal, how to improve the electroplating efficiency becomes the pursuit direction of the electroplating industry.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is as follows: provides a steel wire electroplating device capable of improving electroplating efficiency.

In order to solve the technical problems, the utility model adopts the technical scheme that: a steel wire electroplating device capable of improving electroplating efficiency comprises an electroplating pool, wherein a circulating pool is arranged below the electroplating pool, two ends of the circulating pool are respectively and rotatably connected with an insulating wire support frame, the two wire support frames are parallel to each other, the electroplating pool is arranged in the circulating pool and is positioned between the two wire support frames, the upper edge of the electroplating pool is lower than the upper edge of the wire support frame, a cross beam parallel to the wire support frames is arranged above the electroplating pool, two ends of the cross beam extend out of the circulating pool and are respectively connected with a stand column, the stand column is fixedly arranged, a press roller seat perpendicular to the wire support frames is connected onto the cross beam, two ends of the press roller seat respectively extend above the two wire support frames and are respectively and rotatably connected with conductive press rollers in one-to-one correspondence with the two wire support frames, the press rollers are abutted against the corresponding wire support frames, a vibration motor is fixedly connected onto the cross beam, the press rollers are connected with a power supply cathode, an anode plate is arranged in the electroplating pool, the anode plate is connected with a power supply anode.

As a preferred scheme, the stand is provided with the regulation seat including the landing leg of fixed setting above the landing leg, and the top of landing leg is connected with the roof that the level set up, adjusts the bottom plate that the level set up that the lower extreme of seat is connected with, and roof and bottom plate are through two piece at least bolt interconnect, have cup jointed a spring on arbitrary bolt, and the spring is located between roof and the bottom plate, and the spring supports the regulation seat.

As a preferred scheme, the compression roller seat comprises two longitudinal beams which are respectively connected to two ends of a cross beam, the two longitudinal beams are perpendicular to the wire support frames, two ends of any longitudinal beam respectively extend above the two wire support frames, and two ends of any compression roller are respectively rotatably connected with the same end of the two longitudinal beams through a shaft seat.

As a preferred scheme, the bottom of the electroplating pool is provided with a pump liquid hole, a circulating pump is arranged in the circulating pool, and a water outlet of the circulating pump is connected with the pump liquid hole through a pipeline.

Preferably, the support legs are fixedly connected to the outer side wall of the circulating pool.

As a preferred scheme, the wire supporting frame comprises roller supporting frames respectively connected to two side walls of the circulating pool and a plurality of supporting rollers rotatably connected between the two roller supporting frames, two ends of each supporting roller are respectively rotatably connected with the two roller supporting frames, and the compression roller is pressed on at least one supporting roller.

As a preferred scheme, one wire supporting frame comprises two supporting rollers which are arranged in parallel, and a pressing roller corresponding to the wire supporting frame is arranged between the two supporting rollers and is simultaneously pressed with the two supporting rollers.

The utility model has the beneficial effects that: according to the utility model, the press roller connected with the cross beam is arranged above the wire support frame, the vibration motor is arranged on the cross beam, the vibration generated by the vibration motor drives the press roller to vibrate, the vibrating press roller drives the steel wire between the press roller and the wire support frame to vibrate, and the vibrating steel wire can contact more copper ions in the plating solution, so that the electroplating efficiency is improved.

The utility model further improves the structure of the upright post, and the upright post is arranged into a sectional type and is formed by elastically connecting the supporting legs and the adjusting seat, thereby reducing the resistance effect of the supporting legs on the vibration of the vibration motor, improving the vibration effect of the vibration motor on the motor, reducing the vibration of the supporting legs and improving the stability of the upright post.

The utility model further provides a press roller corresponding to the two carrier rollers, so that the steel wire forms a longer surrounding arc on the press roller, and the steel wire is fully contacted with the press roller to form good conductivity.

Drawings

The following detailed description of embodiments of the utility model is provided in conjunction with the appended drawings, in which:

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

FIG. 2 is a top view of FIG. 1;

FIG. 3 is a sectional view A-A of FIG. 1;

in FIGS. 1 to 3: 1. the device comprises a plating tank, 2, a circulating tank, 3, a wire supporting frame, 301, a roller supporting frame, 302, a roller, 4, a cross beam, 5, a vertical column, 501, a supporting leg, 502, an adjusting seat, 503, a top plate, 504, a bottom plate, 505, a bolt, 506, a spring, 6, a roller pressing seat, 601, a longitudinal beam, 7, a pressing roller, 8, a vibration motor, 9, an anode plate, 10, a shaft seat, 11, a pump liquid hole, 12, a circulating pump, 13, a pipeline, 14, a steel wire, 15, a support, 16 and an insulating layer.

Detailed Description

Specific embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1 to fig. 3, a steel wire electroplating apparatus capable of improving electroplating efficiency comprises an electroplating tank 1, a circulation tank 2 is arranged below the electroplating tank 1, the inner wall of the circulation tank is insulated by an attached insulating layer 16, two ends of the circulation tank 2 are respectively connected with an insulating wire support 3 in a rotating manner, the two wire support 3 are parallel to each other, the electroplating tank 1 is arranged in the circulation tank 2 and located between the two wire support 3, an insulating support 15 is arranged in the circulation tank 2, the electroplating tank 1 is arranged on the support 15, the upper edge of the electroplating tank 1 is lower than the upper edge of the wire support 3, a beam 4 parallel to the wire support 3 is arranged above the electroplating tank 1, two ends of the beam 4 extend out of the circulation tank 2 and are respectively connected with a stand column 5, the stand column 5 is fixedly arranged, in this embodiment, the stand column 5 comprises a support leg 501 fixedly arranged, an adjusting seat 502 is arranged above the support leg 501, the upper end of the support leg 501 is connected with a top plate 503 horizontally arranged, the lower end of the adjusting seat 502 is connected with a horizontally arranged bottom plate 504, the top plate 503 and the bottom plate 504 are connected with each other through at least two bolts 505, a spring 506 is sleeved on any bolt 505, the spring 506 is located between the top plate 503 and the bottom plate 504, and the adjusting seat 502 is supported by the spring 506.

As shown in fig. 2, a press roller seat 6 perpendicular to the wire support frames 3 is connected to the beam 4, two ends of the press roller seat 6 respectively extend to the upper side of the two wire support frames 3 and are respectively and rotatably connected with voltage conductive rollers 7 in one-to-one correspondence with the two wire support frames 3, the press rollers 7 are abutted to the corresponding wire support frames 3, the beam 4 is fixedly connected with a vibration motor 8, the press rollers 7 are connected with a power supply cathode, as shown in fig. 3, an anode plate 9 is arranged in the electroplating pool 1, and the anode plate 9 is connected with a power supply anode.

In this embodiment, the wire supporting frame 3 includes two supporting roller frames 301 respectively connected to two side walls of the circulation tank 2 and two supporting rollers 302 rotatably connected between the two supporting roller frames 301, two ends of any supporting roller 302 are respectively rotatably connected to the two supporting roller frames 301, and the press roller 7 is disposed between the two supporting rollers 302 and is simultaneously pressed against the two supporting rollers 302, so that the steel wire 14 forms a long surrounding arc on the press roller 7, and the steel wire 14 is fully contacted with the press roller 7 to form good conductivity.

In actual production, the number of the carrier rollers 302 can also be one or three or even more, and can be set according to actual needs.

In order to better improve the conductive connection effect between the compression roller 7 and the steel wire 14, an annular groove 17 matched with the shape of the steel wire 14 can be further arranged on the outer surface of the compression roller 7 so as to further increase the contact area between the steel wire 14 and the compression roller 7.

The press roller seat 6 comprises two longitudinal beams 601 which are respectively connected to two ends of the cross beam 4, the two longitudinal beams 601 are perpendicular to the wire support frames 3, two ends of any longitudinal beam 601 respectively extend above the two wire support frames 3, and two ends of any press roller 7 are respectively rotatably connected with the same ends of the two longitudinal beams 601 through the shaft seats 10.

As shown in fig. 3, a pump liquid hole 11 is formed in the bottom of the electroplating tank 1, a circulating pump 12 is arranged in the circulating tank 2, and a water outlet of the circulating pump 12 is connected with the pump liquid hole 11 through a pipeline 13.

The working principle of the utility model is as follows: as shown in fig. 1 to fig. 3, firstly, the plating solution is filled into the circulation pool 2 of the steel wire plating device, then the circulation pump 12 is started, the anode plate 9 and the power supply anode (i.e. the anode) are connected, the compression roller 7 and the power supply cathode (i.e. the cathode) are connected, the steel wire 14 is pulled to pass through the two wire holders 3, and the steel wire 14 is pressed by the two compression rollers 7, the surfaces of the wire holders 3 and the compression rollers 7 have elasticity, so that the steel wire 14 is not scratched, because the upper edge of the plating pool 1 is lower than the upper edge of the wire holders 3, the steel wire 14 just passes through the upper part of the plating pool 1 but does not contact the plating pool, when the circulation pump 12 works for a period of time, the circulation pump 12 pumps the plating solution in the circulation pool 2 from the pump hole 11 into the plating pool 1 through the pipeline 13, so that the plating solution in the plating pool 1 overflows, the overflowing plating solution level is higher than the upper edge of the plating pool 1, and the steel wire 14 just submerges in the plating solution higher than the plating pool 1, the steel wire 14 is connected to the press roll 7, so that the steel wire 14 also serves as a cathode, and copper ions in the plating solution migrate to the surface of the steel wire 14 to form a plated layer.

In the electroplating process, start shock dynamo 8, shock dynamo 8 drives the vibrations of crossbeam 4, and crossbeam 4 drives the vibrations of compression roller seat 6, and compression roller seat 6 drives compression roller 7 vibrations, and compression roller 7 vibrations drive the vibrations of steel wire 14, and the vibrations of steel wire 14 make the steel wire initiative contact more copper ions in the plating solution to improve electroplating efficiency and electroplating effect.

In this embodiment, the pressure between the compression roller 7 and the wire support frame 3 can be adjusted by the bolt 505 on the upright post 5, the bolt 505 is loosened, the pressure between the compression roller 7 and the wire support frame 3 is reduced, the bolt 505 is tightened to improve the pressure between the compression roller 7 and the wire support frame 3, when the vibration motor 8 vibrates, the cross beam 4 drives the adjusting seat 502 of the upright post 5 to vibrate, the adjusting seat 502 is elastically connected with the support leg 501 through the spring 506, and therefore the vibration of the adjusting seat 502 can be absorbed by the spring 506, thereby avoiding the vibration being transmitted to the support leg 501, and ensuring the connection stability of the support leg 501.

Experiments prove that under the condition that the original electroplating parameters are not changed, after the vibration motor 8 is added, the electroplating efficiency of the steel wire is improved by 7 percentage points.

The above embodiments are merely illustrative of the principles and effects of the present invention, and some embodiments in use, and are not intended to limit the utility model; it should be noted that, for those skilled in the art, various changes and modifications can be made without departing from the inventive concept of the present invention, and these changes and modifications belong to the protection scope of the present invention.

Claims (7)

1. The utility model provides a can promote steel wire electroplating device of electroplating efficiency, including electroplating bath (1), a serial communication port, the below of electroplating bath (1) is provided with a circulation pond (2), the both ends of circulation pond (2) are rotated respectively and are connected with an insulating wire bracket (3), two wire bracket (3) are parallel to each other, electroplating bath (1) is arranged in circulation pond (2) and is located between two wire bracket (3), the last edge of electroplating bath (1) is less than on wire bracket (3) and follows, the top of electroplating bath (1) is provided with a crossbeam (4) that is on a parallel with wire bracket (3), crossbeam (4) both ends extend to circulation pond (2) outside and are connected with stand (5) respectively, stand (5) fixed setting, be connected with compression roller seat (6) that perpendicular to wire bracket (3) set up on crossbeam (4), the both ends of compression roller seat (6) extend to two wire bracket (3) tops respectively and rotate respectively and be connected with the voltage that corresponds one-to two wire bracket (3) one-to one respectively Roller (7), compression roller (7) with correspond lead screw frame (3) butt, vibrating motor (8) of fixedly connected with on crossbeam (4), power negative pole is connected in compression roller (7), is provided with anode plate (9) in electroplating pool (1), and power positive pole is connected in anode plate (9).

2. The steel wire electroplating device according to claim 1, wherein the upright column (5) comprises a fixedly arranged supporting leg (501), an adjusting seat (502) is arranged above the supporting leg (501), a horizontally arranged top plate (503) is connected to the upper end of the supporting leg (501), a horizontally arranged bottom plate (504) is connected to the lower end of the adjusting seat (502), the top plate (503) and the bottom plate (504) are connected with each other through at least two bolts (505), a spring (506) is sleeved on any bolt (505), the spring (506) is located between the top plate (503) and the bottom plate (504), and the adjusting seat (502) is supported by the spring (506).

3. The steel wire electroplating device according to claim 1, wherein the press roller seat (6) comprises two longitudinal beams (601) respectively connected to two ends of the cross beam (4), the two longitudinal beams (601) are both arranged perpendicular to the wire supporting frames (3) and two ends of any longitudinal beam (601) respectively extend to the upper parts of the two wire supporting frames (3), and two ends of any press roller (7) are respectively rotatably connected with the same ends of the two longitudinal beams (601) through a shaft seat (10).

4. The steel wire electroplating device according to claim 1, wherein a pump liquid hole (11) is formed in the bottom of the electroplating pool (1), a circulating pump (12) is arranged in the circulating pool (2), and a water outlet of the circulating pump (12) is connected with the pump liquid hole (11) through a pipeline (13).

5. Steel wire plating apparatus according to claim 2, characterized in that the legs (501) are fixedly attached to the outer side walls of the circulation tank (2).

6. The steel wire electroplating device according to any one of claims 1 to 5, wherein the wire supporting frame (3) comprises supporting roller frames (301) respectively connected to two side walls of the circulating pool (2) and a plurality of supporting rollers (302) rotatably connected between the two supporting roller frames (301), two ends of each supporting roller (302) are respectively rotatably connected with the two supporting roller frames (301), and the press roller (7) is pressed on at least one supporting roller (302).

7. A steel wire plating apparatus according to claim 6, wherein one wire carrier (3) comprises two idlers (302), the idlers (302) are arranged in parallel, and the press roller (7) corresponding to the wire carrier (3) is arranged between the idlers (302) and is simultaneously pressed against the idlers (302).

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