KR100349444B1 - Plating method of electro galvanized steel sheet with excellent whiteness - Google Patents

Abstract

The present invention relates to a plating method in a fluid-supported horizontal plating bath that can produce an electrogalvanized steel sheet excellent in whiteness,

The steel plate to be plated horizontally passes between the anodes above and below the plurality of plating baths, and the plating solution injection nozzle passes through the center of the anode, and the plating solution is injected into the space between the steel plate and the anode through the nozzle. Plating solution sprayed from the center of the anode is a fluid-supported plating tank is sprayed divided in the forward and reverse directions with respect to the moving direction of the steel sheet moving in only one direction, the plating solution in each plating tank in the same direction as the flow direction of the steel sheet Installing a switch capable of interrupting / connecting current between the anode of the flowing portion and the rectifier; In the plating section of the front end portion of the plurality of plating tanks, the plating solution is applied to the plating solution by applying a current to both the positive and the reverse direction of the movement direction of the steel sheet; In some plating tanks at the rear end of the plurality of plating tanks to block the current through the switch between the positive electrode and the rectifier in the forward portion so that the plating solution can be plated only in the state flowing in the direction opposite to the flow direction of the steel sheet; ; In a fluid-supported plating bath comprising a plating method of the electroplated galvanized steel sheet excellent in whiteness.

According to the present invention, according to the desired plating amount, in some plating baths, this switch can be cut off easily to cut off the current. In this plating bath, the plating solution is plated only in a state in which the plating solution flows in the opposite direction to the steel plate. It can be plated on the outermost layer of the has the effect of producing a plated steel sheet excellent in whiteness.

Description

Plating method of electro galvanized steel sheet with excellent whiteness

The present invention relates to a plating method in a fluid-supported horizontal plating bath that can produce an electro galvanized steel sheet having excellent whiteness. In particular, the plating solution flows between the anode and the rectifier in a portion where the plating solution flows in each direction in each plating bath. By installing a switch that cuts off and connects the current to the wire, it cuts off the switch according to the desired amount of plating, so that the plating solution is plated only in a state in which the plating solution flows in the opposite direction to the steel plate, thereby producing an excellent galvanized steel sheet having excellent whiteness. The present invention relates to a plating method of an electrogalvanized steel sheet in a fluid supporting plating bath.

In general, electroplated steel sheet is widely used in automobile bodies, electronic products and building materials, in particular, in the case of the electro-galvanized steel sheet used for the inner plate of home appliances are often used without a coating treatment on the plated steel sheet. Therefore, since the surface color of the galvanized steel sheet determines the surface quality of the final product, the development of a steel plate having a bright color is required.

1 is a view showing a jet cell-type horizontal electroplating tank, Figure 2 is a view showing a conventional fluid-supported horizontal electroplating tank. In general, the plating equipment for manufacturing electroplated steel sheet is divided into horizontal type, vertical type and radial type according to the direction of the steel plate in the plating bath, among which the horizontal type is used. Electroplating device has the advantage that the high-flow density operation is possible because the distance between the steel plate and the anode can be shorter than the vertical type or radial type. In the horizontal electroplating apparatus, a jet cell plating bath and a fluid support plating cell are classified according to the type of spraying the plating solution into the plating bath. The jet plating bath is an initial horizontal plating bath before the fluid support plating bath is developed. As shown in FIG. 1, the steel plate is plated by spraying the plating solution in the opposite direction to the traveling direction of the steel plate as shown in FIG. There is a disadvantage of sagging down due to the weight of the solution and its own weight. The plating bath developed to solve this disadvantage is a fluid support plating bath as in FIG. As shown in FIG. 2, the fluid-supported plating bath is provided with a plating solution injection nozzle in the middle of the upper and lower anodes between the two rolls to inject the plating solution at a constant pressure so that the steel sheet can be leveled in the plating bath by this spraying pressure. In this fluid-supported plating bath, the steel plate can be leveled so that the distance between the steel plate and the anode can be shortened, so that the jet plating bath can be plated with high current density and the steel plate shakes in the plating bath. There is an advantage that can be plated at high speed because of the small number. In such a fluid support horizontal plating apparatus, a plurality of plating tanks as shown in FIG. 2 are formed, and plating is performed at a predetermined deposition amount in each plating tank, and thus, the target plating deposition amount can be obtained when the final plating tank passes. As described above in each plating bath, the steel plate 3 to be plated horizontally passes between the upper and lower anodes 2 and 2 ', and the plating solution is sprayed to the center of the upper and lower anodes 2 and 2'. In the nozzle 5, the plating solution 6 is sprayed through the nozzle 5 into the space between the steel plate 3 and the anodes 2, 2 'so as to have a constant flow rate. On the other hand, reference numeral 7 is a rectifier.

The plating solution 6 injected from the center of the anodes 2 and 2 'flows in both directions and the steel plate 3 moving in only one direction is in the opposite direction to the moving direction, respectively. Realms coexist. Therefore, even though the plating solution is sprayed at a constant flow rate, the steel plate moves in one direction, so the relative flow rate is different at the actual steel surface in the forward and reverse regions, and the plating layer in the forward region is less white than the plated layer in the reverse region. Since the plating solution is alternately plated in the state in which the plating solution flows in the forward and reverse directions with each steel plate, a plating layer having a high whiteness and a plating layer having a low whiteness are alternately present, and a plating layer plated under the forward direction is present at the surface of the plating layer. The whiteness of the final plated steel sheet is low.

In addition, the whiteness of the plated steel sheet affects the whiteness of the phosphated steel sheet, so that when the whiteness of the plated steel sheet is low, the whiteness of the phosphated steel sheet is also reduced.

In this way, the flow rate of the plating liquid 6 in the fluid-supported horizontal continuous electroplating apparatus in which the plating solution flows in one plating bath in a state in which the flow direction of the steel plate coexists with the forward direction and the reverse direction of the steel plate is determined. In the case of the same traveling direction, since the relative flow velocity in the forward region becomes zero, the whiteness of the steel sheet is greatly reduced. Therefore, in order to increase the whiteness of the steel sheet, it is possible to make the flow rate of the plating solution much larger than the moving speed of the steel plate. However, if the flow rate is too fast, the solution will collide with the conductive rolls and splash out of the plating tank to contaminate the equipment and waste the plating solution. This has a problem that it is difficult to increase the flow rate above a certain limit.

The present invention has been made to solve the above problems, the present invention is to provide a plating method of an electro galvanized steel sheet excellent in whiteness in a fluid-supported horizontal plating bath for improving the surface quality of the electroplated steel sheet There is a purpose.

In order to achieve the above object, the present invention provides a steel plate to be plated horizontally between the anodes above and below the plurality of plating baths, and allows the plating solution injection nozzle to pass through the center of the anode, and passes the plating solution through the nozzles. The plating solution sprayed from the center of the anode by spraying into the space between the steel plate and the anode is plated in each of the plating tanks in a fluid supporting plating tank in which the plating solution is sprayed divided in the forward and reverse directions with respect to the moving direction of the steel sheet moving in only one direction. Installing a switch capable of interrupting / connecting a current between the positive electrode and the rectifier of the portion where the solution flows in the same direction as the flow direction of the steel sheet; In the plating section of the front end portion of the plurality of plating tanks, the plating solution is applied to the plating solution by applying a current to both the positive and the reverse direction of the movement direction of the steel sheet; In some plating tanks at the rear end of the plurality of plating tanks to block the current through the switch between the positive electrode and the rectifier in the forward portion so that the plating solution can be plated only in the state flowing in the direction opposite to the flow direction of the steel sheet; ; It characterized in that it provides a plating method of the electro-galvanized steel sheet excellent in whiteness in the fluid-supported plating bath comprising a.

1 is a view showing a jet cell type horizontal electroplating tank.

2 is a view showing a conventional fluid-supported horizontal electroplating bath.

Figure 3 is a view showing the plating equipment in a fluid-supported horizontal plating bath according to the present invention.

* Explanation of symbols for main parts of the drawings

1: conductive roll 2: anode

3: steel sheet 4: support roll

5: Nozzle 6: Plating Solution

7: rectifier

Hereinafter, with reference to the accompanying drawings will be described the present invention.

In the conventional fluid-supported horizontal plating cell, the plating solution is sprayed from the middle of the anode above and below the steel plate in one plating bath, so the flow direction of the sprayed plating solution is parallel to the portion flowing in the opposite direction to the traveling direction of the steel plate. The parts flowing in one direction coexist. At this time, the sprayed plating solution flows in both directions at a constant speed in the plating bath, but since the actual steel plate moves in one direction, the relative flow rates of the steel plate and the plating solution on the surface of the steel sheet are different. For example, if the steel plate is sprayed in both directions at a speed of 150m / min, the relative flow velocity at the surface of the steel plate will be 300m / min in the region spraying in the opposite direction to the steel plate. In the area sprayed in the same direction as the direction, the relative flow rate is 0 m.

In the electroplating reaction, the relative flow rate with the plating solution on the surface of the steel sheet not only determines the limiting current density for plating, but also changes the plating crystal form. In other words, when the relative flow rate is slow, metal ions (zinc ions in the case of zinc plating) to be plated on the surface of the steel sheet are not fast to supply. Therefore, when plating high current densities, metal ions on the surface of the steel sheet are quickly depleted. Instead, hydrogen gas is generated by reduction of hydrogen ions. Therefore, the slower the flow rate, the lower the limiting current density that can be plated, and the lowering of the relative flow rate lowers the plating rate because plating is possible only at a current density below the limiting current density. In addition, since the reaction of generating hydrogen, which is a side reaction, increases, the plating structure becomes coarse, and localized fine holes are present in the plating layer, and the color of the plated steel sheet becomes black.

3 is a view showing a fluid-supported plating bath capable of producing an electro-galvanized steel sheet excellent in whiteness according to the present invention, wherein the plating solution 6 is in the same direction as the steel plate 3 in the plating bath in the same direction as the plating solution. In the conducting wire between the anode (2 ') of the part flowing to the part and the rectifier (7) which supplies the current, a switch (8) is provided to cut off and connect the current. Both anodes apply current, and in the later several plating baths, the current is cut off through a current cut-off switch 8 provided between the positive electrode 2 'and the rectifier 7 in the forward portion. 6) is to be plated only in the state flowing in the reverse direction to the steel sheet (3). At this time, what is necessary is just to adjust suitably according to the final plating amount, so that the plating amount to be plated may be 2-3 g per square meter.

That is, if the total number of plating baths is 11 and the target final plating amount is 20g per square meter, the plating is performed at about 1.82g per square meter in one plating bath, so that the anode (2 ') in the forward region of the two plating baths in the rear stage is plated. When the current flowing in the) is cut off, the amount of adhesion to be plated in the reverse region of the two subsequent plating baths is 2 g per square meter, so that the steel sheet having high whiteness of the final steel sheet can be produced.

The general fluid support type horizontal plating bath to which the present invention relates is provided with a conductive roll 1 and a supporting roll 4, and a steel plate 3 to be plated therebetween passes therethrough. An anode (2,2 ') is provided between both conductive rolls (1) and between the support rolls (4) and is connected to the rectifier (7) of the anode with a conductive wire, and has a positive electrode in a portion where the plating solution flows in the forward direction ( The connecting wire between 2 ') and the rectifier 7 is provided with a changeover switch 8 for cutting off and connecting current. The fluid-supported horizontal plating bath has a current interruption and connection provided by the present invention between the anode 2 'and the rectifier 7 in the forward region of the plating bath at the rear end of the plating bath according to the target plating amount. By cutting off the current through the switch 8, in these plating baths, the plating solution is plated only at the portion flowing in the reverse direction to the steel plate, thereby increasing the whiteness of the plating layer.

As described above, the fluid-supported horizontal plating bath according to the present invention is provided for each plating bath by installing a switch for blocking and connecting the current to the portion of the plating solution flowing in the steel plate and the forward direction and the conductor between the anode and the rectifier, Depending on the target coating amount, several plating baths can switch off this switch to easily cut off the current. In this plating bath, plating is performed only when the plating solution flows in the opposite direction to the steel plate. Since it can be plated on, there is an effect that can produce a plated steel sheet excellent in whiteness.

Claims (2)

The steel plate to be plated horizontally passes between the anodes above and below the plurality of plating baths, and the plating solution injection nozzle passes through the center of the anode, and the plating solution is injected into the space between the steel plate and the anode through the nozzle. Plating solution sprayed from the center of the anode in the fluid-supported plating tank is sprayed divided in the forward and reverse directions with respect to the moving direction of the steel sheet moving in only one direction, Installing a switch in each of the plating tanks to cut / connect a current between the anode and the rectifier of the portion where the plating solution flows in the same direction as the flow direction of the steel sheet; In the plating section of the front end portion of the plurality of plating tanks, the plating solution is applied to the plating solution by applying a current to both the positive and the reverse direction of the movement direction of the steel sheet; In some plating tanks at the rear end of the plurality of plating tanks to block the current through the switch between the positive electrode and the rectifier in the forward portion so that the plating solution can be plated only in the state flowing in the direction opposite to the flow direction of the steel sheet; ; Plating method of electro-galvanized steel sheet excellent in whiteness in a fluid-supported plating bath comprising a. The method of claim 1, Plating method of the electroplated galvanized steel sheet excellent in whiteness in the fluid-supported plating bath, characterized in that the plating deposition amount of the steel sheet carried out in the partial plating bath of the rear end is adjusted to be 2 to 3g per square meter.