CN114481268B

CN114481268B - Electroplating equipment for steel belt

Info

Publication number: CN114481268B
Application number: CN202210121560.7A
Authority: CN
Inventors: 郭有宏; 王利; 刘长山; 陶冉; 于胜
Original assignee: Anhui Fenjin Environmental Protection Technology Co ltd
Current assignee: Anhui Fenjin Environmental Protection Technology Co ltd
Priority date: 2022-02-09
Filing date: 2022-02-09
Publication date: 2024-07-02
Anticipated expiration: 2042-02-09
Also published as: CN114481268A

Abstract

The invention is suitable for the technical field of electroplating, and provides electroplating equipment for a steel belt, which is characterized in that a lifting assembly is arranged to drive a telescopic clamping jaw to move, so that the loading and unloading processes of the steel belt in the electroplating process are completed, a carbon brush assembly is arranged on the telescopic clamping jaw to drive the telescopic clamping jaw to rotate in cooperation with a power rotating device, so that the clamp and the steel plate are always electrified, a plurality of groups of anode parts are arranged in a plating tank to ensure the smooth use of the whole electroplating, the telescopic clamping jaw is arranged to clamp the steel belt coiled into a circular shape, the firmness of the steel belt in the transportation and processing processes is ensured, and meanwhile, the plating tank and the steel belt are arranged into a circular shape, so that the steel belt can be conveniently and uniformly electroplated on the surface when being driven to rotate by the power rotating device in the plating tank, the uniform and rapid electroplating operation of the surface of the steel belt is realized, and the high-efficiency production is ensured.

Description

Electroplating equipment for steel belt

Technical Field

The invention belongs to the technical field of electroplating, and particularly relates to electroplating equipment for a steel belt.

Background

Electroplating, wherein plating metal or other insoluble materials are used as an anode, a workpiece to be plated is used as a cathode, cations of the plating metal are reduced on the surface of the workpiece to be plated to form a plating layer, and the electroplating can enhance the corrosion resistance of the metal (the plating metal is mostly made of corrosion-resistant metal), increase the hardness, prevent abrasion, improve the conductivity, the smoothness, the heat resistance and the attractive surface.

When a conventional steel belt used as a conveyor belt is provided with a sticky material at a transportation portion, the sticky material is easy to adhere to the surface of the steel belt, so that the steel belt cannot be separated easily, repeated processing, manual active stripping and the like can be possibly caused, and a material layer for preventing the sticky material from being transported is further required to be electroplated on the outer wall of the steel belt used as the conveyor belt.

Disclosure of Invention

The invention provides electroplating equipment for a steel belt, and aims to solve the problems in the background technology.

The invention is realized in such a way that the electroplating equipment for the steel belt comprises a telescopic clamping jaw used for clamping the steel belt rolled into a circular ring shape, the telescopic clamping jaw is rotatably arranged on a lifting assembly, the lifting assembly is used for conveying the telescopic clamping jaw and the clamped steel belt into an annular plating tank used for containing electroplating liquid, a power rotating device is arranged on the lifting assembly and used for driving the clamped steel belt to carry out rotary electroplating in the plating tank, a plurality of anode parts are annularly arranged on the outer wall of the plating tank close to the outer circumference, and cathode parts are arranged on the outer side of the plating tank and are connected with the telescopic clamping jaw through a carbon brush assembly and used for carrying out negative electricity electroplating on the steel belt.

Preferably, the lifting assembly is provided with a lifting assembly, the lifting assembly is connected with a rotating rod through a bearing, a first bevel gear is arranged on the rotating rod, a second bevel gear is connected to the side face of the first bevel gear in a meshed mode, the second bevel gear is arranged on a first motor, and the first motor is arranged on the lifting assembly.

Preferably, the middle section of the rotating rod is sequentially provided with a fixing frame installed through a bearing and a rotating frame fixedly connected with the fixing frame from top to bottom, a second motor of the power rotating device is installed on the fixing frame, and the second motor is connected with an input gear on the rotating frame through an output gear in a meshed mode.

Preferably, the outside of swivel mount is provided with the conducting strip, the below of mount is provided with the carbon brush subassembly through adjusting device, this carbon brush subassembly with the conducting strip contacts.

Preferably, the telescopic clamping jaw comprises a plurality of accommodating shells arranged below the rotating frame, a screw is rotationally connected to the inner part of each accommodating shell, clamping plates moving along the screw are arranged on the screw, one ends of the screw are provided with input bevel gears, and the input bevel gears are meshed with output bevel gears at the bottom of the rotating rod and used for synchronously moving the clamping plates.

Preferably, the bottom of the clamping plate is provided with a bottom bracket for supporting the bottom of the steel plate, and the clamping plate is electrically connected with the conducting strip.

Preferably, a plurality of main frames are arranged on the outer side of the plating tank, and when the main frames descend to the lowest level, the main frames are clamped with the fixing frames to form cathode copper seats for conducting electricity to the fixing frames, and water cooling boxes are arranged at the cathode copper seats for cooling and radiating.

Preferably, the anode member includes a fixing bracket installed inside the plating tank, and the anode plate is installed on the fixing bracket.

Preferably, the lifting assembly is used for driving the rotating rod to lift, namely, whether the first bevel gear and the second bevel gear are meshed or not, and whether the output bevel gear and a plurality of input bevel gears are meshed or not.

Compared with the prior art, the invention has the beneficial effects that: according to the electroplating equipment for the steel belt, the lifting assembly is arranged to drive the telescopic clamping jaw to move, so that the feeding and discharging processes of the steel belt in the electroplating process are completed, the carbon brush assembly is arranged on the telescopic clamping jaw to drive the telescopic clamping jaw to rotate in cooperation with the power rotating device, the clamp and the steel plate are guaranteed to be always electrified, meanwhile, the plurality of groups of anode components are arranged in the plating tank to ensure smooth use of the whole electroplating, meanwhile, the telescopic clamping jaw is arranged to clamp the steel belt coiled into a circular ring shape, the firmness of the steel belt in the transportation and processing processes is guaranteed, meanwhile, the plating tank and the steel belt are arranged into the circular ring shape, the steel belt can be conveniently and uniformly electroplated on the surface when the steel belt is driven to rotate by the power rotating device in the plating tank, the uniform and rapid electroplating of the surface of the steel belt is realized, the full-automatic operation is guaranteed, and the high-efficiency production is guaranteed.

Drawings

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

FIG. 2 is a schematic view of an external structure of the present invention

FIG. 3 is a schematic cross-sectional view of the present invention;

FIG. 4 is an enlarged schematic view of the structure shown in FIG. 3A;

FIG. 5 is an enlarged schematic view of the structure shown at B in FIG. 3;

FIG. 6 is a schematic top view of the present invention;

FIG. 7 is an enlarged schematic view of the structure at C1 in FIG. 1;

FIG. 8 is an enlarged schematic view of the structure at C2 in FIG. 2;

In the figure:

1. A lifting assembly; 12. a fixing frame; 13. a rotating frame;

21. A lifting assembly; 22. a rotating lever; 23. a first bevel gear; 24. a second bevel gear; 25. a first motor; 26. an output bevel gear;

3. A power rotation device; 31. a second motor; 32. an output gear; 33. an input gear;

4. a cathode member; 41. a conductive sheet; 42. an adjusting device; 43. a carbon brush assembly;

5. a retractable clamping jaw; 51. a housing case; 52. a screw; 53. a clamping plate; 54. an input bevel gear; 55. a bottom support;

6. a plating bath;

7. A main frame;

8. An anode member; 81. a fixed bracket; 82. an anode plate.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Referring to fig. 1-8, the present invention provides a technical solution: the utility model provides a electroplating device for steel band, including being used for carrying out the flexible clamping jaw 5 of centre gripping to the steel band of rolling up into the ring, flexible clamping jaw 5 rotates to be installed on lifting means 1, this lifting means 1 is arranged in sending into the annular plating bath 6 that is used for splendid attire plating solution with flexible clamping jaw 5 and the steel band of centre gripping, and install power rotary device 3 on lifting means 1 and be used for driving the steel band of being held and carry out rotatory electroplating in plating bath 6, the plating bath 6 is provided with a plurality of positive pole piece 8 on the outer wall of outer circumference in the annular, the outside of plating bath 6 is provided with negative pole piece 4, this negative pole piece 4 links up with flexible clamping jaw 5 through carbon brush subassembly 43, be used for the steel band to take negative electricity and electroplate.

In this embodiment, drive flexible clamping jaw 5 through setting up lifting means 1 and remove to accomplish the last unloading process of steel band in electroplating processing, flexible clamping jaw 5's setting is used for rolling up into annular steel band and carries out the centre gripping, guarantee that the steel band is firm at transportation and course of working, simultaneously set up plating bath 6 and steel band into the ring, make things convenient for the steel band to rotate at plating bath 6 inside, realize the even electroplating to the steel band surface, carbon brush subassembly 43 on flexible clamping jaw 5 set up in order to cooperate power rotary device 3 to drive the rotatory use of flexible clamping jaw 5, it is electrified all the time to have guaranteed anchor clamps and steel sheet.

The lifting assembly 1 is provided with a lifting assembly 21, the lifting assembly 21 is connected with a rotating rod 22 through a bearing, the rotating rod 22 is provided with a first bevel gear 23, the side face of the first bevel gear 23 is connected with a second bevel gear 24 in a meshed mode, the second bevel gear 24 is arranged on a first motor 25, and the first motor 25 is arranged on the lifting assembly 1. The lifting assembly 21 is used for driving the rotating rod 22 to lift, namely, whether the first bevel gear 23 and the second bevel gear 24 are meshed, whether the output bevel gear 26 and the plurality of input bevel gears 54 are meshed, and the lifting assembly 21 is preferably an air cylinder, a hydraulic cylinder and a turbine screw lifting motor.

When the lifting assembly 21 is in use, when the lifting assembly 21 is lifted, the rotating rod 22 and the first bevel gear 23 and the output bevel gear 26 which are arranged on the rotating rod 22 are driven to move upwards, so that the first bevel gear 23 is meshed with the second bevel gear 24, the output bevel gear 26 is meshed with the input bevel gear 54, the first motor 25 is ensured to synchronously drive each screw 52 to rotate, and each clamping plate 53 is further synchronously moved, otherwise, when the lifting assembly 21 is lifted down, the first bevel gear 23 is separated from the second bevel gear 24, the output bevel gear 26 is separated from the input bevel gear 54, and the positions of the screws 52 are locked, so that the clamping positions of the steel belts by the clamping plates 53 are fixed.

Referring to fig. 1 and 7, when the lifting assembly 21 is configured as a cylinder or a hydraulic cylinder, the lifting assembly drives the rotating rod 22 to lift by the extension and retraction of the cylinder or the hydraulic cylinder, so as to control the relationship between the first bevel gear 23 and the second bevel gear 24, and control the relationship between the output bevel gear 26 and the input bevel gear 54, so as to determine whether the first bevel gear 23 and the second bevel gear 54 are in a meshed state;

Referring to fig. 2 and 8, when the lifting assembly 21 is configured as a turbine screw lifting motor, the motor drives the screw to rotate and lift, and further drives the rotating rod 22 to lift, so as to control the relationship between the first bevel gear 23 and the second bevel gear 24, and control the relationship between the output bevel gear 26 and the input bevel gear 54, so as to determine whether the first bevel gear 23 and the second bevel gear 54 are engaged with each other.

The middle section of the rotating rod 22 is provided with a fixing frame 12 installed through a bearing and a rotating frame 13 fixedly connected from top to bottom in sequence, a second motor 31 of the power rotating device 3 is installed on the fixing frame 12, and an input gear 33 on the rotating frame 13 is connected with the second motor 31 in a meshed mode through an output gear 32.

In this embodiment, the fixing frame 12 is disposed to contact with the main frame 7 outside the plating tank 6, so as to guide negative electricity to the telescopic clamping jaw 5 and the clamping plate 53, and finally, the steel strip is negatively charged, and the rotating frame 13 is disposed to drive the telescopic clamping jaw 5 to rotate inside the plating tank 6, so as to achieve uniform plating on the outer wall of the steel plate.

The telescopic clamping jaw 5 comprises a plurality of accommodating shells 51 which are arranged below the rotating frame 13, a screw rod 52 is rotatably connected in the accommodating shells 51, clamping plates 53 which move along the screw rod 52 are arranged on the screw rod 52, input bevel gears 54 are arranged at one ends of the plurality of screw rods 52, and the plurality of input bevel gears 54 are meshed with the output bevel gears 26 at the bottom of the rotating rod 22 and used for synchronously moving the plurality of clamping plates 53.

In this embodiment, the rotation of the rotation rod 22 drives the output bevel gear 26 to rotate, the output bevel gear 26 drives each input bevel gear 54 meshed with the output bevel gear 26 around the output bevel gear to rotate, and the input bevel gears 54 drive the corresponding screw rods 52 to rotate in the accommodating shell 51, so that the positions of the clamping plates 53 in the accommodating shell 51 are adjusted, and the positions of all the clamping plates 53 are synchronously adjusted, so that synchronous expansion or contraction of the telescopic clamping jaw 5 is realized, and clamping of the steel strip is realized.

The bottom of the clamping plate 53 is provided with a bottom bracket 55 for supporting the bottom of the steel plate, and the clamping plate 53 is electrically connected with the conductive sheet 41.

In this embodiment, the bottom of the steel plate is supported by the bottom bracket 55, so that the steel plate is prevented from sliding off the clamping plate 53 during transportation and use, and the steel plate is ensured to be fixed.

The conductive sheet 41 is disposed in a ring shape to be in contact with the carbon brush assembly 43, and the conductive sheet 41 is electrically connected to the clamping plate 53 through the housing 51 made of steel, and the steel plate is negatively charged.

The outside of the rotating frame 13 is provided with a conductive sheet 41, and a carbon brush assembly 43 is arranged below the fixed frame 12 through an adjusting device 42, and the carbon brush assembly 43 is contacted with the conductive sheet 41. The outside of the plating tank 6 is provided with a plurality of main frames 7, when the fixing frame 12 descends to the lowest, the main frames 7 are clamped with the fixing frame 12 to form a cathode copper seat for conducting electricity to the fixing frame 12, and a water cooling box is arranged at the cathode copper seat for cooling and radiating.

In this embodiment, the lifting assembly 1 is started to drive the telescopic clamping jaw 5 and the steel strip to move right above the plating tank 6, then slowly descends, and stops when the outer end of the fixing frame 12 is clamped onto the main frame 7 along with descending, and the electroplating feeding process is completed, in this process, as the fixing frame 12 is clamped onto the main frame 7, the conductive device at the outer end of the fixing frame 12 contacts with the cathode copper seat formed by conductive connection between the conductive device at the outer end of the fixing frame 12 and the component of the main frame 7, and then the conductive device of the cathode copper seat is communicated with the carbon brush assembly 43 to enable the conductive device to be electrified, and as the carbon brush assembly 43 is positioned outside and in contact with the conductive sheet 41 of the rotating frame 13, the conductive sheet 41 is electrified, and the conductive sheet 41 is contacted with the steel plate on the clamping plate 53, so that the steel plate is electrified. The cathode copper seat is provided with a water cooling box for carrying out water cooling heat dissipation on heat generated when each cathode copper seat conducts electricity.

The adjusting device 42 is used for adjusting and fixing the position of the carbon brush assembly 43 on the fixing frame 12 along the sliding groove, so that the distance between the carbon brush assembly 43 and the conductive sheet 41 is adjusted, the carbon brush assembly 43 is ensured to be always contacted with the conductive sheet 41, and the carbon brush assembly price and the conductive sheet 41 are arranged in a manner of being matched with the rotation of the telescopic clamping jaw 5.

The anode member 8 includes a fixing bracket 81 mounted inside the plating tank 6, and an anode plate 82 is mounted on the fixing bracket 81.

In this embodiment, a plurality of groups of anode members 8 are provided on the inner wall of the plating tank 6 near the outer circumference at equal intervals in a ring shape, each anode member 8 is provided with a fixing bracket 81, the fixing brackets 81 are used for mounting the anode plate 82 on the inner wall of the plating tank 6, and the anode plate 82 is connected with the anode of the power supply through a cable.

The working principle and the using flow of the invention are as follows: after the invention is installed, the lifting assembly 21 ascends to move the rotating rod 22 upwards, the first bevel gear 23 on the rotating rod 22 is meshed with the second bevel gear 24, the output bevel gear 26 is meshed with the plurality of input bevel gears 54, the first motor 25 is started, the first motor 25 drives the second bevel gear 24 to rotate through rotation, the second bevel gear 24 drives the first bevel gear 23 to rotate, the first bevel gear 23 drives the rotating rod 22 to rotate, the rotating rod 22 drives the output bevel gear 26 at the bottom of the rotating rod to rotate, the output bevel gear 26 drives the plurality of input bevel gears 54 around the rotating rod to synchronously rotate, and then the plurality of screw rods 52 are driven to rotate, so that clamping plates 53 corresponding to the screw rods 52 synchronously expand or contract.

Firstly, a steel belt rolled into a circular ring shape is arranged on the telescopic clamping jaw 5 outside the plating tank 6, the telescopic clamping jaw 5 is contracted firstly and then is placed in the steel belt, then the telescopic clamping jaw 5 is expanded and supported outwards from the inside of the steel belt, the bottom of the steel belt is arranged on a collet 55 of a clamping plate 53, then the lifting assembly 1 is started to drive the telescopic clamping jaw 5 and the steel belt to move to the position right above the plating tank 6, and then the steel belt slowly descends, and when the outer end of the fixing frame 12 is clamped onto the main frame 7 along with descending, the electroplating feeding process is stopped, and the electroplating feeding process is completed.

Then, the power supply on each main frame 7 is connected, and the cathode is clamped on the main frame 7 by the fixing frame 12 to form a conductive cathode copper seat, so that electricity is led into the fixing frame 12 from the main frame 7 and is further communicated with the carbon brush assembly 43 to charge the carbon brush assembly, and the carbon brush assembly 43 is positioned outside the conductive sheet 41 of the rotating frame 13 and is contacted with the conductive sheet 41, so that the conductive sheet 41 is charged, and the conductive sheet 41 is contacted with the steel plate on the clamping plate 53 to charge the steel plate. Each anode plate 82 in the plating tank 6 is connected to the positive electrode of the power supply through a cable, so that each anode plate 82 is charged.

During electroplating, the second motor 31 of the power rotating device 3 is started, the second motor 31 drives the input gear 33 on the fixing frame 12 to rotate through the output gear 32, so that the fixing frame 12 and the telescopic clamping jaw 5 arranged below the fixing frame 12 rotate, and then the steel plate clamped by the telescopic clamping jaw 5 rotates in the plating tank 6, and simultaneously, the electroplating operation on one side of the steel plate is realized under the action of positive and negative points of electroplating liquid in the whole plating tank 6.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims

1. An electroplating device for a steel strip, characterized in that: the electroplating device comprises a telescopic clamping jaw (5) used for clamping a steel belt rolled into a circular ring shape, wherein the telescopic clamping jaw (5) is rotatably arranged on a lifting assembly (1), the lifting assembly (1) is used for conveying the telescopic clamping jaw (5) and the clamped steel belt into an annular plating tank (6) used for containing electroplating liquid, a power rotating device (3) is arranged on the lifting assembly (1) and used for driving the clamped steel belt to carry out rotary electroplating in the plating tank (6), a plurality of anode pieces (8) are annularly arranged on the outer wall of the plating tank (6) close to the outer circumference, a cathode piece (4) is arranged on the outer side of the plating tank (6), and the cathode piece (4) is connected with the telescopic clamping jaw (5) through a carbon brush assembly (43) and used for carrying out negative electricity electroplating on the steel belt; the lifting assembly (1) is provided with a lifting assembly (21), the lifting assembly (21) is connected with a rotating rod (22) through a bearing, a first bevel gear (23) is arranged on the rotating rod (22), a second bevel gear (24) is connected to the side face of the first bevel gear (23) in a meshed mode, the second bevel gear (24) is arranged on a first motor (25), and the first motor (25) is arranged on the lifting assembly (1); the middle section of the rotating rod (22) is sequentially provided with a fixing frame (12) installed through a bearing and a rotating frame (13) fixedly connected with the fixing frame (12), a second motor (31) of the power rotating device (3) is installed on the fixing frame (12), and the second motor (31) is meshed and connected with an input gear (33) on the rotating frame (13) through an output gear (32); a conductive sheet (41) is arranged on the outer side of the rotating frame (13), a carbon brush assembly (43) is arranged below the fixed frame (12) through an adjusting device (42), and the carbon brush assembly (43) is contacted with the conductive sheet (41); the telescopic clamping jaw (5) comprises a plurality of accommodating shells (51) arranged below the rotating frame (13), a screw (52) is rotatably connected in the accommodating shells (51), clamping plates (53) moving along the screw (52) are arranged on the screw (52), one ends of the screw (52) are respectively provided with an input bevel gear (54), and the input bevel gears (54) are respectively meshed with an output bevel gear (26) at the bottom of the rotating rod (22) and used for synchronously moving the clamping plates (53); the anode part (8) comprises a fixed bracket (81) arranged in the plating tank (6), and an anode plate (82) is arranged on the fixed bracket (81).

2. An electroplating apparatus for steel strip as claimed in claim 1 wherein: the bottom of the clamping plate (53) is provided with a bottom bracket (55) for supporting the bottom of the steel plate, and the clamping plate (53) is electrically connected with the conducting strip (41).

3. An electroplating apparatus for steel strip as claimed in claim 1 wherein: the outside of coating bath (6) is provided with a plurality of main frame (7), main frame (7) are in when mount (12) descends to the minimum, form negative pole copper seat rather than the joint and be used for to mount (12) is electrically conductive, and is provided with the water-cooling box in negative pole copper seat department and is used for the cooling heat dissipation.

4. An electroplating apparatus for steel strip as claimed in claim 1 wherein: the lifting assembly (21) is used for driving the rotating rod (22) to lift, namely, whether the first bevel gear (23) and the second bevel gear (24) are meshed, and whether the output bevel gear (26) and a plurality of input bevel gears (54) are meshed.