CN216857503U - Electroplating device capable of cleaning steel belt - Google Patents

Abstract

The utility model relates to an electroplating device capable of cleaning a steel strip, which mainly comprises a transmission mechanism, a clamping mechanism and a steel strip cleaning mechanism, wherein the transmission mechanism is provided with a steel strip and two rotating wheels, the steel strip surrounds the two rotating wheels, so that the inner side surface of the steel strip surrounds to form a surrounding space, the clamping mechanism is connected to the outer side of the steel strip, and further when one rotating wheel is driven to rotate, the steel strip can drive the clamping mechanism to move, wherein the steel strip cleaning mechanism is provided with a steel strip brush head and a steel strip cleaning driving source, the steel strip brush head is positioned in the surrounding space, and the steel strip brush head can rotate through the steel strip cleaning driving source to clean the inner side surface of the steel strip, so that when the electroplating device carries out electroplating operation on an electroplating plate, the steel strip brush head can synchronously rotate to clean dust remained on the inner side surface of the steel strip, and further can prevent the steel strip from rusting to generate verdigris, the service life of the steel belt can be relatively prolonged.

Description

Electroplating device capable of cleaning steel belt

Technical Field

The present invention relates to an electroplating apparatus capable of performing an electroplating operation on an electroplated panel, and more particularly, to an electroplating apparatus capable of simultaneously performing a cleaning operation on an inner side surface of a steel strip during an electroplating operation on an electroplated panel.

Background

In general, in the electroplating process, current is input to an anode and a cathode during electrolysis, and the anode and the cathode perform oxidation-reduction reaction, so that metal ions in the electroplating solution move to the cathode to be attached to the surface of an object to be plated (e.g., an electroplating plate), thereby forming a metal shell on the surface of the object to be plated.

At present, in order to improve production efficiency, a plated object (e.g., a plating plate) is automatically plated through a plating device, however, in a conventional plating device, a steel strip and a rotating wheel are used to drive the plated object (e.g., the plating plate) to move, so that the plated object (e.g., the plating plate) can move into a plating tank for plating, however, in the process of plating the plated object (e.g., the plating plate) for a long time by the conventional plating device, a part of electrolyte in the plating tank can volatilize into gas, so that not only dust can gradually accumulate on the surface of the steel strip, but also the surface of the steel strip can be condensed into blocks due to contact with the gas, thereby generating verdigris on the steel strip, and relatively reducing the service life of the steel strip.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to improve the structural composition of an electroplating device, so that the improved electroplating device can simultaneously clean dust remained on the surface of a steel strip in the process of electroplating an electroplating plate, the surface of the steel strip cannot accumulate the dust, the surface of the steel strip can be prevented from generating blocks due to the contact of the gas of an electroplating solution, the steel strip can be relatively prevented from rusting to generate verdigris, and the service life of the steel strip can be further prolonged.

The electroplating device capable of cleaning the steel strip mainly comprises a transmission mechanism, a clamping mechanism and a steel strip cleaning mechanism, wherein the transmission mechanism is provided with a steel strip and two rotating wheels, the steel strip surrounds the two rotating wheels, so that the inner side surface of the steel strip surrounds to form a surrounding space, and one rotating wheel is driven to rotate so that the steel strip and the other rotating wheel can act simultaneously.

The fixture has the anchor clamps of plural number interval arrangement, and a plurality of anchor clamps connect in the outside of steel band makes fixture is located around the outside in space, in addition, the clean mechanism of steel band has one and is located around the inside steel band brush head in space and one be located the clean driving source of steel band top, the steel band brush head contact in the medial surface of steel band, and the clean driving source of steel band can drive the steel band brush head rotates in order to clean the medial surface of steel band.

In this embodiment, the driven rotating wheel can rotate around a rotating axis, and the steel belt brush head rotates around a steel belt cleaning axis parallel to the rotating axis.

Furthermore, the transmission mechanism further comprises a guide roller connected to the steel belt and a guide rail matched with the guide roller for use, wherein the guide rail is positioned outside the steel belt and arranged at intervals on the steel belt brush head, so that a penetrating space for the steel belt to pass through is formed between the guide rail and the steel belt brush head.

The steel belt is provided with two mounting sections which are mounted on the two rotating wheels in a one-to-one mode, a cleaning section close to the steel belt cleaning device and an electroplating section which is arranged on the cleaning section at intervals are arranged between the two mounting sections, and the electroplating section is located above an electroplating tank containing electrolytic liquid.

The electroplating device is characterized in that the electroplating device is additionally provided with the steel belt cleaning mechanism, so that the steel belt cleaning mechanism can simultaneously clean the surface of the steel belt of the transmission mechanism in the process of moving the electroplating plate to the inside of the electrolytic bath for electroplating operation, the steel belt cleaning mechanism can not only prevent dust from accumulating on the surface of the steel belt, but also prevent the surface of the steel belt from generating blocks due to contact with the gas of the electroplating solution, so that the steel belt can be relatively prevented from rusting to generate verdigris, and the service life of the steel belt can be further prolonged.

Drawings

FIG. 1 is a side view of an electroplating apparatus according to the present invention;

FIG. 2 is a top view of an electroplating apparatus according to the present invention;

FIG. 3 is a schematic view of the clamping mechanism assembled to the steel strip;

FIG. 4 is a perspective view of the clamp;

FIG. 5 is a schematic view of a steel strip brush head in proximity to a cleaning track;

FIG. 6 is a schematic view of the plating plate being moved into the plating bath;

FIG. 7 is a schematic view of a steel belt brush head cleaning the inside of a steel belt.

Description of reference numerals: 1-an electroplating device capable of cleaning a steel belt; 10-a frame; 11-a plating area; 12-a cleaning area; 13-an electroplating bath; 14-a power-on component; 20-a drive mechanism; 21-a drive source; 22-a drive rod; 30-a transmission mechanism; 31-a running wheel; 31 a-a main running wheel; 31 b-an auxiliary rotating wheel; 311-a groove; 32-a steel belt; 321-a main mounting section; 322-a secondary mounting section; 323-electroplating section; 324-a cleaning section; 325-upper connection; 326-lower connection; 33-a conductive component; 331-a guide track; 331 a-plating the track; 331 b-cleaning track; 332-a conductive element; 332 a-conductive seat; 332 b-conductive copper head; 332 c-guide rollers; 40-a clamping mechanism; 41-a clamp; 411-a stationary fixture; 412-a movable clamp; 413-return piece; 50-a steel belt cleaning mechanism; 51-a steel band brush head; 52-steel belt cleaning drive source; 60-electroplating a plate; l1-axis of rotation; l2-steel strip cleaning axis; s1 — surrounding space; s2-penetrating the space.

Detailed Description

The utility model will be further described with reference to specific embodiments and drawings, the advantages and features of which will become apparent as the description proceeds.

Referring to fig. 1 and 2, a plating apparatus 1 capable of cleaning a steel strip according to the present invention is mainly composed of a frame 10, a driving mechanism 20, a transmission mechanism 30, a clamping mechanism 40, and a steel strip cleaning mechanism 50, wherein a left region of the frame 10 is defined as a plating region 11, a right region of the frame 10 is defined as a cleaning region 12 adjacent to the plating region 11, a plating tank 13 containing an electrolyte and a current-carrying assembly 14 capable of conducting current-carrying are disposed inside the plating region 11, and the plating tank 13 is disposed below the current-carrying assembly 14, as shown in the figure, the driving mechanism 20 has a driving source 21 fixedly connected to the frame 10, and the driving source 21 can drive a driving rod 22 assembled to the driving source 21 to rotate.

The transmission mechanism 30 has two rotatable rotating wheels 31, a steel belt 32 having a ring-shaped configuration, and a conductive member 33 disposed between the frame 10 and the steel belt 32, and a plurality of concave recesses 311 are formed on the outer side of each rotating wheel 31, in this embodiment, one rotating wheel 31 is assembled to the driving rod 22 of the driving mechanism 20 to be a main rotating wheel 31a, so that the driving source 21 of the driving mechanism 20 can drive the main rotating wheel 31a to rotate around a rotating axis L1 parallel to the driving rod 22, and the other rotating wheel 31 is pivotally connected to the frame 10 to be a sub rotating wheel 31b arranged at an interval on the main rotating wheel 31a, wherein the steel belt 32 simultaneously surrounds the two rotating wheels 31, so that the inner side surface of the steel belt 32 surrounds a surrounding space S1 for accommodating the two rotating wheels 31, in this embodiment, the steel belt 32 is provided with a main mounting section 321 mounted on the main rotating wheel 31a and an auxiliary mounting section 322 mounted on the auxiliary rotating wheel 31b, and a plating section 323 and a cleaning section 324 arranged at an interval on the plating section 323 are arranged between the main mounting section 321 and the auxiliary mounting section 322, wherein the two rotating wheels 31 are located at the boundary between the plating area 11 and the cleaning area 12, so that the plating section 323 of the steel belt 32 is located inside the plating area 11, the plating section 323 is located above the plating tank 13, and the cleaning section 324 of the steel belt 32 is located inside the cleaning area 12.

Referring to fig. 1 and 3, the upper and lower portions of the steel belt 32 are respectively provided as an upper connection portion 325 and a lower connection portion 326 located below the upper connection portion 325, and the conductive element 33 of the transmission mechanism 30 has two guide tracks 331 and a plurality of conductive units 332, both of the two guide tracks 331 and the plurality of conductive units 332 are located outside the space S1 surrounded by the steel belt 32, in this embodiment, the two guide tracks 331 are respectively located at two opposite sides of the steel belt 32 of the transmission mechanism 30, such that one of the guide tracks 331 is located in the plating region 11 of the rack 10 and is provided as a plating track 331a, and the other guide track 331 is located in the cleaning region 12 of the rack 10 and is provided as a cleaning track 331b spaced from the plating track 331a, and in addition, the plurality of conductive units 332 are assembled to the upper connection portion 325 of the steel belt 32, as shown in the figure, each conductive unit 332 has a conductive seat 332a locked to the upper connection portion 325, the conductive base 332a is connected to a conductive copper head 332b at the highest position, and two guide rollers 332c arranged at intervals are mounted on the conductive base 332a at a side away from the steel belt 32, as shown in the figure, two opposite ends of each conductive copper head 332b are respectively in face contact with the conductive copper head 332b of another conductive element 33, and each conductive copper head 332b can be in contact with the powered element 14 of the rack 10, however, one guide roller 332c of each conductive unit 332 can be in contact with the upper end of the guide rail 331, and the other guide roller 332c of each conductive unit 332 can be in contact with the lower end of the guide rail 331, so that when two guide rollers 332c of a part of the conductive elements 33 are respectively located at the upper end and the lower end of the guide rail 331, the conductive elements 33 can support the weight of the steel belt 32 of the transmission mechanism 30.

Referring to fig. 1 and 4, the clamping mechanism 40 has a plurality of clamps 41 with the same specification, and the clamping mechanism is located outside the surrounding space S1 of the steel strip 32, as shown in the figure, the clamp 41 has a fixed clamp 411 which is fixed and a movable clamp 412 which can move relative to the fixed clamp 411, the fixed clamp 411 is fixedly connected to the lower connecting portion 326 of the steel strip 32, and the movable clamp 412 is pivotally connected to the fixed clamp 411, wherein a return piece 413 provided as a spring is provided between the fixed clamp 411 and the movable clamp 412, and the return piece 413 can continuously push the movable clamp 412, so that the end of the fixed clamp 411 is continuously contacted with the end of the movable clamp 412.

Referring to fig. 1 and 5, the steel belt cleaning mechanism 50 is located inside the cleaning area 12 of the frame 10, wherein the steel belt cleaning mechanism 50 has a steel belt brush head 51 and a steel belt cleaning driving source 52, the steel belt brush head 51 is located between the two guide tracks 331 of the conductive member 33, the steel belt brush head 51 is close to the cleaning track 331b of the conductive member 33, so that the steel belt brush head 51 is close to the cleaning section 324 of the steel belt 32, and the steel belt brush heads 51 are arranged at intervals on the cleaning track 331b, so that a penetrating space S2 is formed between the cleaning track 331b and the steel belt brush head 51, in this embodiment, the steel belt 32 can penetrate through the penetrating space S2, the steel belt brush head 51 is located inside the surrounding space S1 of the steel belt 32 to contact the inner side surface of the steel belt 32, and the steel belt cleaning driving source 52 is fixed to the frame 10 and located above the steel belt 32, and the steel belt cleaning driving source 52 is assembled to the steel belt brush head 51, so that the steel belt cleaning drive source 52 can drive the steel belt brush head 51 to rotate around a steel belt cleaning axis line L2 parallel to the rotation axis line L1.

Referring to fig. 6 and 7, when the electroplating apparatus 1 capable of cleaning steel strip performs electroplating operation, the plurality of clamps 41 of the clamping mechanism 40 clamp a plating plate 60 together, and then the driving source 21 of the driving mechanism 20 drives the main rotating wheel 31a of the transmission mechanism 30 to rotate around the rotation axis L1 via the driving rod 22 of the driving mechanism 20, and the rotating main rotating wheel 31a can drive the steel strip 32 of the transmission mechanism 30 to move, so that the auxiliary rotating wheel 31b of the transmission mechanism 30 synchronously rotates in the same direction, and the moving steel strip 32 brings the conductive copper head 332b of the movable conductive unit 332 into contact with the energizing assembly 13 of the frame 10, and at the same time, the moving steel strip 32 drives the plating plate 60 to move into the electroplating tank 13 via the clamping mechanism 40 for electroplating operation, and the steel strip cleaning driving source 52 of the steel strip cleaning mechanism 50 can drive the steel strip brush head 51 of the steel strip cleaning mechanism 50 to perform electroplating operation around the steel strip cleaning axis L2 The side of the most lateral end of the steel belt brush head 51 can clean the inner side of the steel belt 32 moving into the cleaning area 12, so that dust cannot be accumulated on the surface of the cleaning section 324 of the steel belt 32, blocks caused by contact with electroplating solution gas can be avoided, and the service life of the steel belt 32 can be prolonged.

The foregoing description is intended to be illustrative rather than limiting, and it will be appreciated by those skilled in the art that many modifications, variations or equivalents may be made without departing from the spirit and scope of the utility model as defined in the appended claims.

Claims (4)

1. An electroplating apparatus capable of cleaning a steel strip, comprising:

the transmission mechanism is provided with a steel belt and two rotating wheels, the steel belt surrounds the two rotating wheels, so that the inner side surface of the steel belt surrounds to form a surrounding space, and one rotating wheel is driven to rotate so that the steel belt and the other rotating wheel can act simultaneously;

the clamping mechanism is provided with a plurality of clamps which are arranged at intervals, and the clamps are connected to the outer side surface of the steel belt, so that the clamping mechanism is positioned outside the surrounding space;

the electroplating device is characterized in that the electroplating device is provided with a steel belt cleaning mechanism, the steel belt cleaning mechanism is provided with a steel belt brush head positioned in the space and a steel belt cleaning driving source positioned above the steel belt, the steel belt brush head is contacted with the inner side surface of the steel belt, and the steel belt cleaning driving source can drive the steel belt brush head to rotate so as to clean the inner side surface of the steel belt.

2. An electroplating apparatus capable of cleaning a steel strip according to claim 1, wherein: the driven rotating wheel can rotate by taking a rotating axis as an axis, and the steel belt brush head rotates by taking a steel belt cleaning axis parallel to the rotating axis as the axis.

3. An electroplating apparatus capable of cleaning a steel strip according to claim 1, wherein: the transmission mechanism is also provided with a guide roller connected with the steel belt and a guide rail matched with the guide roller for use, the guide rail is positioned on the outer side of the steel belt and is arranged at the brush head of the steel belt at intervals, so that a penetrating space for the steel belt to pass through is formed between the guide rail and the brush head of the steel belt.

4. An electroplating apparatus capable of cleaning a steel strip according to claim 1, wherein: the steel belt is provided with two mounting sections which are mounted on the two rotating wheels in a one-to-one mode, a cleaning section close to the steel belt cleaning device and an electroplating section which is arranged at the cleaning section at intervals are arranged between the two mounting sections, and the electroplating section is located above an electroplating bath containing electrolytic liquid.

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