JP2920654B2 - Pre-flux liquid regeneration equipment in hot-dip galvanizing process - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to an apparatus for cleaning a pre-flux solution used for hot-dip galvanizing.

[Prior Art] FIG. 2 is a configuration diagram showing a conventional galvanizing apparatus, in which 1 is a pickling tank, 1a is a hydrochloric acid solution, 2 is a washing tank, 2a is water, 3 is a pre-flux tank, and 3a is Flux liquid, 4 is a galvanizing tank, 4a is hot-dip zinc, 5 is a transfer facility, 6 is a steel material, and 7 is a neutralizer. As shown in the figure, steel material 6 to be galvanized
Is first pickled with a hydrochloric acid solution 1a in a pickling tank 1, then washed in a washing tank 2 and then in a pre-flux tank 3.
The surface is coated with a flux solution 3 a composed of a mixture of ZnCl ₂ and NH ₃ Cl, and the pretreatment process is completed. The surface of the steel material 6 immersed in the molten zinc 4a in the galvanizing tank 4 is plated with zinc, and the galvanizing operation is completed.

The reason why the steel material 6 is coated with the flux liquid 3a in the pre-flux tank is to prevent the surface of the steel material 6 from being oxidized and to make the adhesion of zinc to the surface of the steel material 6 in the galvanizing tank 4 sufficient. .

An overhead crane (not shown) or the like is used for transferring the steel material 6 between the tanks.

 The water in the washing tank 2 is neutralized by the neutralizing device 7.

[Problems to be Solved by the Invention] By the way, in the pretreatment step of galvanizing, FeCl _{2 and the} like adhering to the surface of the steel material are mixed into the pre-flux tank 3 due to insufficient washing of the steel material and the like, and further, the Fe content is reduced. It is mixed into the zinc plating tank 4 together with ZnCl ₂ and NH ₃ Cl in the flux tank. As a result, in the galvanizing tank, Fe
Has the disadvantage of reacting with zinc to form dross, not only increasing the consumption of zinc, but also contaminating the plated surface with dross and reducing the commercial value of the plated steel material. SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems in the conventional galvanizing apparatus, and an object of the present invention is to provide a pre-flux tank regenerating apparatus for preventing iron from being mixed into a galvanizing tank.

Means for Solving the Problems To achieve the above object, a flux regenerating apparatus for a pre-flux tank according to the present invention comprises a flux storage tank, a heater for heating the flux liquid in the flux storage tank, A gas-liquid contact device for diffusing air into the liquid, an ammonia water supply device for supplying ammonia water to the flux solution, a zinc dust supply device for supplying zinc to the flux solution, and a filter for filtering the flux solution And a sludge treatment device.

[Function] The flux in the pre-flux tank is stored in the flux storage tank, and a predetermined amount of zinc dust and ammonia water are fed into the storage tank, and the air is blown into the storage tank by the air blowing device.

As a result, the reaction of HCl + ZnO = ZnCl ₂ + H ₂ O proceeds in the storage tank, and the divalent Fe becomes trivalent by the supply of oxygen, and precipitates as Fe (OH) ₃ . Therefore, if the flux in the storage tank is passed through a sludge treatment device and the filtrate is returned to the pre-flux tank, the iron in the pre-flux tank is removed, and the iron in the pre-flux tank adheres to the steel material and enters the galvanizing tank. The phenomenon of mixing is prevented.
[Embodiment of the Invention] Fig. 1 is a configuration diagram of a pre-flux tank and a flux regenerating apparatus thereof according to an embodiment of the present invention. Contact device,
12a is an agitator, 12b is a motor, 12c is an air tube, 13 is a heater, 14 is a PH meter, 15 is an NH ₄ OH supply device, 16 is a zinc dust supply device, 17 is a pump, 18 is a filter press, 19
Is a pipe, 20 is NH ₄ OH, 21 is zinc dust, and 22 is air.

As shown in the figure, a flux regenerating device 10 includes an agitator 12a rotated by a motor 12b and an air pipe 12 in a storage tank 11.
c, a heater 13 for heating the flux liquid 3a in the storage tank 11, a PH meter 14, NH ₄ O
An H supply device 15 and a zinc dust supply device 16 are arranged, and the flux liquid 3a in the storage tank 11 is configured to circulate between the pre-flux tank 3 via a filter press 18 by a pump 17. I have.

Gas-liquid contact device for supplying oxygen to flux liquid 3a
Numeral 12 denotes a system for diffusing the air 22 supplied by the air pipe 12c from the agitator 12a into the storage tank 11, and a system for heating the heater 13 by passing steam into the interior.
The NH ₄ OH supply device 15 operates in conjunction with the PH meter 14 to
It is configured so that the supply amount can be adjusted according to the PH of the flux liquid 3a in 1.

The flux reproducing device 10 according to the present invention is configured as described above.

Next, the operation will be described. The flux liquid 3a in the pre-flux tank 3 is guided and stored in the storage tank 11, and a predetermined amount of zinc dust 21 is charged into the stored flux liquid 3a.
Next, while heating the flux liquid 3a to about 80 ° C. by the heater 13, the air 22 is diffused into the storage tank 11 by the gas-liquid contact device 12, and NH ₄ OH is further supplied to increase the PH of the flux liquid 3a in the storage tank to ₄ ° C. It is controlled to about 5. As a result, the following reaction HCl + ZnO = ZnCl ₂ + H ₂ O is generated, and at the same time, divalent Fe is oxidized to trivalent Fe and precipitated as Fe (OH) ₃ . Thereafter, when the flux liquid 3a in the storage tank 11 is sent to the filter press 18 for filtration, the Fe content in the flux liquid 3a is removed together with other sludge, and the regenerated flux liquid 3a is returned to the pre-flux tank 3.

Thus, the flux liquid in the pre-flux tank 3
Since 3a is always iron-removed by the regenerator 10, the phenomenon that Fe in the pre-flux tank 3 is mixed into the galvanizing tank 4 is eliminated.

In this embodiment, an agitator method is used as a gas-liquid contact device for diffusing air. However, the gas-liquid contact device is not limited to this method and may be another type.

The zinc dust in the above embodiment may be replaced with zinc white or zinc powder.

Further, the sludge treatment apparatus is not limited to the filter press 18 in this embodiment.

[Effects of the Invention] A flux regeneration device for a pre-flux tank according to the present invention includes a flux storage tank, a heater, an air blowing device, an ammonia water supply device, a zinc dust supply device, and a sludge treatment device. With this configuration, the flux in the pre-flux tank was always removed from the iron, and as a result, mixing of iron into the galvanizing tank was prevented.
Therefore, the excellent effect of significantly reducing the dross generation due to iron and zinc in the galvanizing tank, which has been a concern for many years, can be obtained.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of a flux regenerating device for a pre-flux tank according to one embodiment of the present invention, and FIG. 2 is a configuration diagram of a conventional zinc plating device. In the figure, 3 is a pre-flux tank, 3a is a flux liquid, 10 is a pre-flux tank regenerator, 11 is a storage tank, 12 is a gas-liquid contactor, 12a is an agitator, 12b is a motor, 12c is an air pipe, 13
Is a heater, 14 is a PH meter, 15 is an NH ₄ OH supply device, 16 is a zinc dust supply device, 17 is a pump, 18 is a filter press, 19 is piping, 20 is NH ₄ OH, 21 is zinc dust, and 22 is zinc dust. It is air. The same reference numerals in the drawings indicate the same or corresponding parts.

Claims (1)

(57) [Claims] A flux storage tank; a heater for heating the flux liquid in the flux storage tank; a gas-liquid contact device for diffusing air into the flux liquid in the flux storage tank; An ammonia water supply device for supplying ammonia water to the flux liquid; a zinc dust supply device for supplying zinc to the flux liquid in the flux storage tank; and a sludge treatment for filtering the flux liquid in the flux storage tank. An apparatus for regenerating a pre-flux liquid in a hot-dip galvanizing step, comprising: an apparatus;