CN220564760U - Conductive mechanism for continuous electroplating production line - Google Patents

Abstract

The utility model relates to a conductive structure component, which belongs to the technical field of electroplating, in particular to a conductive mechanism for a continuous electroplating production line, comprising a frame and further comprising: one side of the frame is provided with a cathode copper bar, a conductive clamping mechanism is clamped and installed on the cathode copper bar, a conductive copper wire is installed on one side of the conductive clamping mechanism in a communicating mode, a conductive copper clamp is installed on one side of the conductive clamping mechanism in a counterpoint mode, and a long round rod is placed inside the conductive copper clamp. The cathode copper bar is always provided with current during electroplating, if the upper conductive clamping mechanism is not arranged, the conductive copper clamp is loosened and clamped again after returning to place, and the broken copper wires on the copper braid attached to the inner surface of the conductive copper clamp and the electroplated round bar can generate spark, so that the round bar can be damaged; if the conductive copper clamp contacts with the round rod, the upper conductive clamping mechanism clamps again, so that the ignition is not caused, and the long round rod is directly protected.

Description

Conductive mechanism for continuous electroplating production line

Technical Field

The utility model relates to the technical field of electroplating, in particular to a conductive mechanism for a continuous electroplating production line.

Background

The conductive mechanism is an important component in the electroplating line for ensuring that current can smoothly flow between the metal workpiece and the electrolyte, thereby achieving the electroplating process. The conductive mechanism is generally composed of several major parts: a power supply system: providing the required current and voltage. It includes a power supply device, a controller and associated electrical components. The power supply system needs to adjust the current and voltage according to the requirements of the electroplating process. An electrode: the conductive mechanism introduces an electrical current into the metal workpiece through the electrode. The electrodes are typically made of a conductive material that is in direct contact with the electrolyte during the electroplating process. The shape and size of the electrodes will be designed according to the particular workpiece shape and size. And (3) lead wires: the lead wire is connected with the power supply system and the electrode and is used for transmitting current. The leads are typically made of a conductive material, such as copper or aluminum, to ensure that the current is stably transferred. Conductive medium: in some specific cases, a conductive medium may be used to enhance the conductive effect in order to improve the conductive properties of the current. The conductive medium may be a special coating, liquid or conductive tape to fill the gap between the electrode and the workpiece or to increase the contact area. The conductive mechanisms play a critical role in the electroplating line, they ensure smooth current transport and uniform electroplating of the metal work pieces. The design and selection of the appropriate conductive mechanism is critical to achieving a high quality electroplating process.

The novel electroplating production line disclosed by the Chinese utility model with the publication number of CN112010189B comprises an automatic feeding and discharging device, an electroplating production line and a crown block, wherein the automatic feeding and discharging device is fixedly arranged at one end of the electroplating production line, the crown block is positioned above the electroplating production line, the automatic feeding and discharging device comprises a first material taking part, a conveying part and a second material taking part, the electroplating production line comprises an electroplating production line body and a plurality of first detection assemblies, and the crown block comprises a frame, a crown block main body, a second detection assembly and a position sensing assembly which are in sliding connection with the frame. The automatic feeding and discharging device for the electroplating production line achieves automatic feeding and discharging of products of the electroplating production line, improves efficiency of the electroplating production line, reduces labor cost, avoids personnel from being injured by the personnel, improves safety performance of the electroplating production line, and can effectively prevent safety accidents.

However, current is always supplied to the cathode copper bar of the lead structure of the electroplating production line in the prior art during electroplating, if the upper conductive clamping mechanism is not provided, the conductive copper clamp is loosened and returned to be in place and then clamped again, and the broken copper wires on the copper braid attached to the inner surface of the conductive copper clamp and the electroplated round bar generate spark, so that the round bar for electroplating is damaged.

Disclosure of Invention

In order to solve the technical problems, the utility model provides a conductive mechanism for a continuous electroplating production line, current is always supplied to a cathode copper bar during electroplating, if a conductive clamping mechanism above the conductive copper bar is not provided, a conductive copper clip is loosened, and is clamped again after returning to place, a broken copper wire on a copper woven belt attached to the inner surface of the conductive copper clip and an electroplated round bar generate spark, and the round bar is damaged; if the conductive copper clamp contacts with the round rod, the upper conductive clamping mechanism clamps again, so that the ignition is not caused, and the long round rod is directly protected.

The technical solution for realizing the purpose of the utility model is as follows: a conductive mechanism for a continuous electroplating line, comprising a frame, further comprising:

one side of the frame is provided with a cathode copper bar, a conductive clamping mechanism is clamped and installed on the cathode copper bar, a conductive copper wire is installed on one side of the conductive clamping mechanism in a communicating mode, a conductive copper clamp is installed on one side of the conductive clamping mechanism in a counterpoint mode, and a long round rod is placed inside the conductive copper clamp.

In some embodiments, the number of conductive clamping mechanisms and conductive copper clips is a set of two.

Compared with the prior art, the utility model, its apparent advantage is:

the method comprises the following steps: according to the utility model, two sets of conductive copper clamps are arranged and move back and forth, when one set of conductive copper clamps is moved to limit, the upper conductive mechanism is loosened, the conductive copper clamps are loosened again, and after the conductive copper clamps return to the proper position, the upper conductive mechanism is clamped and electrified; when the other set of conductive copper clips are limited, repeating the above actions, and alternately running the two sets of conductive copper clips to keep the current constant;

and two,: the cathode copper bar is always provided with current during electroplating, if the upper conductive clamping mechanism is not arranged, the conductive copper clamp is loosened and clamped again after returning to place, and the broken copper wires on the copper braid attached to the inner surface of the conductive copper clamp and the electroplated round bar can generate spark, so that the round bar can be damaged; if the conductive copper clamp contacts with the round rod, the upper conductive clamping mechanism clamps again, so that the ignition is not caused, and the long round rod is directly protected.

Solves the problem that the existing long round rod can not be ignited due to electrifying in the resetting process.

Drawings

The utility model is further explained below with reference to the drawings and examples:

FIG. 1 is a schematic view of the installation of the present structure on a production line provided in one embodiment of the present utility model;

FIG. 2 is a schematic diagram of a conductive mechanism provided in one embodiment of the utility model;

fig. 3 is a (partial) schematic view of a conductive mechanism provided in an embodiment of the utility model.

Reference numerals illustrate:

1. a frame; 2. a conductive clamping mechanism; 3. cathode copper bars; 4. an electrically conductive copper wire; 5. a conductive copper clip; 6. a long round rod.

Detailed Description

The following detailed description of the present utility model clearly and fully describes the technical solutions of the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The utility model provides a conductive mechanism for a continuous electroplating production line by improving the conductive mechanism, which comprises the following technical scheme:

as shown in fig. 1 and 2, a conductive mechanism for a continuous plating line includes a frame 1, the frame 1 being a main body supporting member of the present apparatus, further comprising:

one side of the frame 1 is provided with a cathode copper bar 3 for electrifying and generating electroplating current; the cathode copper bar 3 is clamped and provided with a conductive clamping mechanism 2 for realizing on-off control of electroplating current of current. One side of the conductive clamping mechanism 2 is provided with a conductive copper wire 4 in a communicating way for realizing the electroplating effect. One side of the conductive clamping mechanism 2 is provided with a conductive copper clamp 5 in an alignment manner, which is a part for realizing electroplating and clamping of a long round rod 6, and the inner surface of the conductive copper clamp is provided with a copper braid. Inside the conductive copper clip 5 is placed a long round bar 6.

As shown in fig. 2 and 3, in one embodiment, the number of the conductive clamping mechanism 2 and the conductive copper clip 5 is one group of two, and the two groups of conductive components operate alternately, so that the current is always kept constant.

The specific working method is as follows:

the conductive copper clips 5 are provided with two sets which move back and forth. When one set of conductive copper clips 5 goes to limit, the upper conductive clamping mechanism 2 is loosened, and meanwhile, the conductive copper clips 5 are loosened again. After the conductive copper clamp is returned to the position, the conductive copper clamp 5 is clamped, and the upper conductive clamping mechanism 2 is clamped and electrified. When the other set of conductive copper clips 5 is limited, the above actions are repeated, and the two sets of conductive assemblies alternately run, so that the current can be kept constant.

The scheme mainly provides a conductive mode, the reason is: the cathode copper bar 3 always has current during electroplating, if the upper conductive clamping mechanism 2 is not arranged, the conductive copper clamp 5 is loosened and returned to the proper position and then clamped, the broken copper wires on the copper braid attached to the inner surface of the conductive copper clamp 5 and the electroplated round bar generate spark, the round bar can be damaged, and if the conductive copper clamp 5 contacts with the round bar firstly, the upper conductive clamping mechanism 2 is clamped again, the spark is not caused at this time, and the inner long round bar 6 is protected.

The technical means disclosed by the scheme of the utility model is not limited to the technical means disclosed by the technical means, and also comprises the technical scheme consisting of the technical characteristics and the equivalent substitution. The present utility model is not limited to the prior art.

Claims (2)

1. An electroconductive mechanism for a continuous electroplating line, comprising a frame (1), characterized in that it further comprises:

one side of frame (1) is provided with negative pole copper bar (3), centre gripping installs conductive clamping mechanism (2) on negative pole copper bar (3), conductive copper line (4) are installed in one side intercommunication of conductive clamping mechanism (2), conductive copper clamp (5) are installed in one side counterpoint of conductive clamping mechanism (2), long round bar (6) have been placed to the inside of conductive copper clamp (5).

2. A conductive mechanism for a continuous electroplating line according to claim 1, wherein: the number of the conductive clamping mechanisms (2) and the conductive copper clamps (5) is one group of two.