JP2002285310A - Roll for hot dip galvanizing treatment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent the occurrence of hazard caused by high pressure generated by thermal expansion of air in a hollow part when a support roll for galvanizing treatment of a steel sheet, being made hollow structure so as to lighten it, is immersed in a hot bath of molten zinc. SOLUTION: The inside of the support roll 18 to be immersed in the hot bath of molten zinc is made hollow structure and the support roll 18 is provided so as to be able to keep the hollow part 26 at a reduced pressure of <=1 atom in such a state that the hollow part 26 is immersed in the bath of the molten zinc.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hot-dip galvanizing roll used for galvanizing a steel sheet, and more particularly to a hot-dip galvanizing roll installed in a zinc bath while being immersed therein.

[0002]

2. Description of the Related Art Conventionally, in the process of galvanizing a steel sheet, a sink roll is immersed in a zinc bath to change the direction of travel of the steel sheet upward, and is also immersed in a zinc bath to support the steel sheet in the left-right direction and vibrate. A roll for hot-dip galvanizing treatment such as a support roll for preventing plating and controlling the plating thickness is used.

In this type of galvanizing equipment, the support roll is conventionally driven to rotate by a motor. In this case, the rotation of the support roll is not smooth, and the rotation speed of the support roll is limited to the pulling speed of the steel sheet. However, there is a problem that the support roll does not satisfactorily synchronize, so that the support roll is freely rotated (freely rotated) without driving the motor.

FIG. 3 shows an example of this support roll. As shown in FIG. 3, conventionally, as shown in FIG. 3, the support roll 200 has an internal solid structure. Even in such a case, when the support roll 200 is immersed in the zinc bath, buoyancy acts on the support roll 200, so that the support roll 200 can be rotated relatively lightly.

[0005]

However, in recent years, the composition of the zinc bath has been changing, and as a result, the support roll becomes relatively heavy in the zinc bath, making it difficult to ensure smooth rotation. Are coming. Specifically, 0.2% Al—Zn is conventionally used as a zinc bath. In this case, the specific gravity of the zinc bath is as large as about 6.9 g / cm ^3, and therefore, the large buoyancy of the zinc bath with respect to the support roll. In recent years, in order to upgrade the galvanizing bath, that is, to further improve the corrosion resistance, a 55% Al containing a large amount of Al is used as a zinc bath.
-Zn has come to be used.

The specific gravity of this 55% Al—Zn is about 3.5 g.
/ Cm ³ , so that the buoyancy acting on the support roll is reduced, and the support roll becomes relatively heavy in the zinc bath, making smooth rotation difficult.

[0007] For these reasons, it is desired to reduce the weight of the support roll. As a method of reducing the weight of the support roll, it is conceivable to use an internal hollow structure. However, if the support roll is merely made to have an internal hollow structure, when it is immersed in a high-temperature zinc bath (about 600 ° C. in a 55% Al bath), the air in the hollow portion expands thermally and a large pressure is applied. (For example, 1 atm at room temperature becomes about 3 atm in a zinc bath), which is dangerous.

When the support roll has an internal hollow structure, a welding process is performed. However, if a stress load is applied to the welded portion or the roll body, and if damage due to corrosion or the like occurs in a bath, the hollow portion is formed. There is a danger that the molten zinc bath will be blown off by blowing air out of the bath.

[0009]

The roll for hot dip galvanizing of the present invention has been devised to solve such a problem. Claim 1 is a hot-dip galvanizing roll installed in a zinc bath in a state of being dipped in a zinc bath when galvanizing a steel sheet. Is characterized by maintaining a reduced pressure state while being immersed in the zinc bath.

A second aspect of the present invention is characterized in that, in the first aspect, the hot-dip galvanizing roll is a support roll.

[0011]

As described above, according to the present invention, the inside of the roll has a hollow structure and the hollow portion is in a depressurized state. In the state of being immersed in the zinc bath, the pressure rise in the hollow portion can be suppressed to a small level.
In particular, in the present invention, when the roll is immersed in a zinc bath, the hollow portion is maintained at a reduced pressure of 1 atm or less. Even in the case where damage due to corrosion or the like occurs in the inside, it is possible to reliably prevent the danger of blowing out the molten zinc liquid by blowing air from the hollow portion.

In order to maintain the reduced pressure of 1 atm or less in the hollow part immersed in the zinc bath, the pressure of the hollow at room temperature is 0.4 atm or less.
Preferably, the pressure is reduced to 0.34 atm or less. The present invention is suitably applied to the above support roll (claim 2).

[0013]

Next, embodiments of the present invention will be described in detail. Figure 1
, 10 is a steel plate, 12 is a plating tank, 14 is a zinc bath (a molten zinc bath), and 16 and 18 are a sink roll and a support roll immersed in the zinc bath 14, respectively.

Here, the sink roll 16 is a roll for changing the traveling direction of the steel sheet 10 upward in the zinc bath 14, and the support roll 18 supports the steel sheet 10 in the left-right direction to prevent the steel sheet 10 from vibrating and plating. This is a roll that controls the thickness.

FIG. 2 shows a specific structure of the support roll 18. As shown in FIG.
8 has a main body 20, bosses 22 at both ends, and a shaft 24 protruding from these bosses 22.

The interior of the main body 20 has a hollow structure, and the hollow portion 26 is decompressed at room temperature. In this example, the hollow portion 26 is at a room temperature of 0.1 mm.
The pressure is reduced to 34 atm or less. The support roll 18 has a main body 20 with a diameter of 250 mm.

The support roll 18 having the hollow structure can be easily manufactured by welding the boss portion 22 integral with the shaft portion 24 to the main body portion 20 in a vacuum chamber. However, this is merely an example, and after the boss portion 22 and the shaft portion 24 are welded and joined to the main body portion 20, the hollow portion 26 is vacuum-sucked through a through hole provided at an appropriate location, and The support roll 18 can also be manufactured in a state where the hollow portion 26 is reduced in pressure by closing the through hole when the pressure is reduced. In addition, various means can be used as a means for reducing the pressure in the hollow portion 26.

In the case of the above-described support roll 18 of the present embodiment, since the hollow portion 26 is at a reduced pressure of 0.34 atm or less at room temperature, the support roll 18 is immersed in the high-temperature zinc bath 14. As a result, even when the pressure in the hollow portion 26 rises, the pressure value can be kept small.

In this embodiment, the pressure in the hollow portion 26 of the support roll 18 is set to 1 while the support roll 18 is immersed in the zinc bath 14.
The pressure can be maintained at a pressure lower than the atmospheric pressure, stress is applied to the welded portion and the roll body, and even when damage such as corrosion occurs in the zinc bath 14, air is blown out from the hollow portion 26. The danger of blowing away the molten zinc liquid can be reliably prevented.

Although the embodiments of the present invention have been described in detail, the present invention can be configured in variously modified forms without departing from the gist thereof.

[Brief description of the drawings]

FIG. 1 is a view showing a support roll according to an embodiment of the present invention and a hot-dip galvanizing equipment including the same.

FIG. 2 is a view showing a specific structure of the support roll of FIG.

FIG. 3 is a view showing the structure of a conventional support roll.

[Explanation of symbols]

 Reference Signs List 10 steel plate 14 zinc bath (hot-dip zinc bath) 18 support roll (hot-dip galvanizing roll) 26 hollow portion

Claims (2)

[Claims] 1. A hot-dip galvanizing roll installed in a zinc bath in a state of being immersed in a zinc bath when a steel plate is galvanized, wherein the inside of the roll has a hollow structure and the hollow portion is formed in the zinc bath. A roll for hot-dip galvanizing, wherein the roll is kept in a reduced pressure state when immersed in the roll. 2. The hot-dip galvanizing roll according to claim 1, wherein the hot-dip galvanizing roll is a support roll.