KR101669177B1 - A method for treating rolled steel for a general structure and facilities therefor - Google Patents

Abstract

The present invention is intended to provide a method for processing rolled steel for general structure which can prevent peeling of paint film formed on rolled steel for general structure after shot blasting. The method includes the steps of: spraying high-pressure dry air on a rolled steel to remove deposits adhering to the rolled steel; heating the rolled steel from which the adhered material has been removed to a predetermined temperature; A step of spraying a paint on a rolled steel from which water and salt fine particles have been removed, a step of spraying paint onto the rolled steel coated with the paint, And a step of spraying hot air to dry the paint.

Description

TECHNICAL FIELD [0001] The present invention relates to a method of treating rolled steels for general structure,

The present invention relates to a method of treating rolled steel for general structure and a facility therefor. Particularly, the present invention relates to a method and a facility for treating rolled steel for general structure so as to be usable in ships or large tanks.

Conventionally, as such a method, there is known a method of treating a surface of a steel plate by shot blasting or acid pickling followed by a shot primer coating or a chemical conversion coating.

Japanese Patent Application Laid-Open No. 8-24781

However, in the conventional method for processing rolled steel for general structure having the above-described structure, the oxide film attached to the rolled steel is completely removed from its surface by the shot blast. However, since the surface of the rolled steel is treated by shot blasting and polished to expose the base metal of the surface with metallic luster, a very small but new oxide layer is immediately formed on the shot-blasted active surface due to a chemical reaction such as oxidation . Therefore, a shot primer coating or the like is formed on the new oxide layer, and the coating film is easily peeled off from the surface of the rolled steel. When the peeled portion is exposed to an environment containing rain or seawater, it penetrates into the gap between the coating film and the base metal, so that the surface of the rolled steel is significantly corroded.

The present invention has been made in view of the above circumstances. That is, an object of the present invention is to provide a method and a facility for processing a rolled steel for general structure capable of preventing peeling of a coating film formed on a rolled steel after shot blasting from a rolled steel.

In order to achieve the above object, the present invention includes the following configuration.

That is, a method of treating rolled steel for general structure is as follows:

Spraying dry and high-pressure air to the rolled steel to remove deposits adhering to the rolled steel;

A step of heating the rolled steel from which deposits have been removed to a predetermined temperature;

A step of shot-blasting the rolled steel heated to a predetermined temperature,

A step of spraying dry air on the shot-blasted rolled steel to remove water and fine salt particles;

Spraying a paint onto the rolled steel from which water and salt fine particles have been removed,

And a step of spraying hot air on the rolled steel coated with the paint to dry the paint.

The present invention relates to:

Spraying high-pressure dry air on the rolled steel to remove deposits adhering to the rolled steel;

A step of heating the rolled steel from which deposits have been removed to a predetermined temperature;

A step of short-blasting the rolled steel heated to a predetermined temperature,

A step of spraying dry air on the shot-blasted rolled steel to remove water and fine salt particles;

Spraying a paint onto the rolled steel from which water and salt fine particles have been removed,

Since the step of spraying hot air on the rolled steel coated with the paint to dry the paint, it is possible to remove moisture and minute fine particles from the surface of the rolled steel, which is exposed by shot blasting, do. Therefore, the coating film can be brought into close contact with the surface of the rolled steel, and any peeling that may occur between the coated film and the rolled steel can be surely prevented. That is, the present invention has very excellent effects.

BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a front view of a processing facility for a general structure rolled steel according to an embodiment of the present invention. FIG.
Fig. 2 is a plan view of the processing equipment of the general structure rolled steel shown in Fig. 1;
3 is an enlarged front view of the first dry air injection device and the thickness measuring device which are the main components in the processing facility of the general structure rolled steel shown in Fig.
4 is an enlarged front view of a shot blasting apparatus, which is a main component in the processing facility of the general structure rolled steel shown in Fig.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an embodiment of a processing facility for a general structure rolled steel of the present invention will be described with reference to Figs. As shown in Figs. 1 and 2, the facilities are arranged in a line from left to right in order:

A first dry air injection device (1) for spraying high-pressure dry air to both sides of the steel plate (W) so as to remove deposits attached to the steel plate (W) corresponding to the rolled steel,

A thickness measuring device 2 for measuring the thickness of the steel strip W,

A heating device 3 for heating both sides of the steel strip W from which deposits have been removed to a predetermined temperature,

A shot blasting device 4 for shot-blasting both sides of the steel strip W heated to a predetermined temperature,

A second dry air injection device 5 for spraying dry air to both sides of the shot-blasted steel plate W so as to remove moisture and fine particles attached to the steel strip W,

A paint spraying device 6 for spraying a paint on a steel plate W from which water and salt fine particles have been removed,

And a paint drying device 7 for spraying hot air on the steel plate W coated with the paint to dry the paint on the steel plate W. [

As shown in Fig. 1, these devices arranged in a line are connected by a roller conveyor 8 that extends from the left side to the right side of the equipment and conveys the steel plate W. 3, the first dry air injection device 1 is provided with a nozzle 11 for spraying compressed air so as to blow off moisture and dust particles adhering to the steel strip W, And a roots blower 13 for supplying compressed air to the nozzle 11 through a blower pipe 12. The thickness measuring device 2 includes a laser displacement sensor. The steel plate heating apparatus 3 for heating the steel strip W has a heat source using infrared rays.

As shown in Fig. 4, the shot blasting device 4 for short-blasting the steel strip W comprises:

A cabinet 41 constituting a shot blast processing chamber including a steel plate W conveyed by a roller conveyor 8 and a roller conveyor 8,

A plurality of shot blasting centrifugal type projecting devices 42 arranged at the top and bottom of the cabinet 41,

A lower screw conveyor 43 disposed below the cabinet 41 for recovering the projected projected material,

A bucket elevator 44 disposed at the distal end of the lower screw conveyor 43 for conveying the recovered projected material upward,

A wind type separator 45 disposed on the top of the bucket elevator 44 for removing a piece of film or particles contained in the projection material,

An upper screw conveyor 46 disposed under the separator 45,

And a projection material hopper 47 disposed above the centrifugal projection device 42 for storing the projection material.

As shown in Fig. 4, an on-off valve 48 for supplying a projection material to the centrifugal projection device 42 is disposed below the projection material hopper 47. As shown in Fig. The on-off valve 48 is connected to the centrifugal projection device 42 by a pipe that supplies the projection material to the centrifugal projection device 42. [ The centrifugal projection device 42 is disposed on the upper and lower surfaces of the steel sheet W and can project the projected material in the direction of 45 to 60 degrees from the longitudinal direction of the steel sheet from the upstream side to the downstream side in the conveyance direction of the steel sheet .

4, the second dry air injection device 5 for spraying the dry air to the steel plate W includes a duct pipe 52 connecting the roots blower and the dry air injection nozzle 51, And a dry air spray nozzle height adjusting mechanism (not shown) capable of adjusting the vertical position of the air spray nozzle 51 in accordance with the thickness of the steel plate W. [ The dry air injection nozzle 51 is inclined by 45 to 60 degrees from the horizontal plane (the longitudinal direction of the steel plate), so that the dry air can be injected from the downstream side to the upstream side in the conveying direction of the steel sheet.

1, a paint spraying apparatus 6 for spraying paint on a steel plate W is composed of a reciprocating paint apparatus 6 arranged in a horizontal direction and using an airless-type nozzle gun 61 (nozzle gun) to be. Four nozzle guns 61 are provided on the upper and lower surfaces of the steel plate W, respectively. These keys (61) can move in the width direction, the longitudinal direction and the vertical direction of the steel strip (W). The vertical position of the nozzle gun 61 is determined based on the thickness of the steel strip W such that the distance between the surface of the steel strip W and the gun 61 is 300 mm. This distance is measured by the thickness measuring device 2. The nozzle gun 61 can spray the paint while reciprocating in the width direction of the steel strip W based on the feed speed of the steel strip W. [

1, the paint drying apparatus 7 is a forced hot air blowing type (hot air blowing type), and includes a burner for burning LPG gas and a wind-up fan 71.

The steel sheet W having a width of 5500 mm and a length of 9000 mm and a thickness of 45 mm is transferred from the first dry air injection device 1 to the paint drying device 7 ). That is, first, the steel strip W is transferred to the first dry air injection device 1. Then, high-pressure air is sprayed onto the surface of the steel strip W to remove the deposit adhered to the steel strip W. The deposit includes fine particles of sodium chloride crystals originating from a liquid such as rainwater, dust particles, and seawater adhered to the steel strip W when the steel strip W is stored outdoors. After removing the deposit from the steel plate W, the steel plate W is transferred to the position where the laser displacement gauge functioning as the thickness measuring device 2 for measuring the thickness of the steel plate W is disposed, . In the subsequent process, the measured thickness is used to determine the height of the dry air injection nozzle 51 and the vertical position of the nozzle gun 61 of the paint sprayer 6. [

Next, the steel strip W is transferred to the heating device 3. [ Then, both sides of the steel strip W are heated such that the surface temperature of the steel strip W is increased by 5 to 20 DEG C above the atmospheric temperature. Then, the heated steel strip W is transferred to the shot blasting machine 4. The shot material is projected at 400 kg / min from the centrifugal type projecting device 42 by the shot blasting device 4 to polish and clean the steel plate W. [ As a result, after the shot blast treatment, the surface roughness Rmax of the steel strip W becomes 35 to 70 mu m. Since the oxide film is separated and removed from the surface of the steel sheet W, the surface of the base metal having metallic luster is exposed.

Next, the steel plate W subjected to the shot blast treatment is transferred to the second dry air injection device 5. Then, Then, dry air is sprayed to both sides of the steel strip W to remove water and fine salt particles from the steel strip W. That is, the dry air generated by the roots blower is sprayed from the dry air spray nozzle 51 to the steel sheet W having the metal luster and easily chemically reacted with the exposed base metal, thereby obtaining water and fine salt particles from the steel sheet W Blow down and remove.

In addition, the dry air spray nozzle 51 is arranged so that the water and the fine particles of the salt removed from the steel strip W do not flow toward the paint sprayer 6 disposed on the downstream side, Spray dry air in the direction. As a result, the amount of sodium chloride on the surface of the steel sheet W before spraying the paint can be reduced to 50 mg or less per 1 square meter.

Next, the steel plate W from which water and salt fine particles have been removed is transferred to the paint spraying apparatus 6, and the paint is sprayed on both sides of the steel plate W by the nozzle gun 61. After the coating film is formed, the coated steel strip W is transferred to the paint drying apparatus 7. Air heated to 70 to 80 占 폚 by burning LPG gas is sprayed onto the surface of the steel plate W by the wind-up fan 71, and the coating of the steel plate W is dried.

Thus, as described above, the process of processing and treating the steel strip W is completed.

In the above-described embodiment, the centrifugal type projection device 42 is used as the projection material projection device. However, the projection reus projection device is not limited to the centrifugal projection device. For example, an air-blasting nozzle for jetting the projection material by compressed air can be used.

Further, in the above-described embodiment, the airless nozzle gun 61 is used as the paint spraying device 6. [ However, the paint sprayer 6 is not limited to the airless nozzle gun. For example, a liquid-gas two-phase-type nozzle for spraying paint with compressed air can be used as the paint spraying device 6.

In addition, it is also possible to easily dry the coating of the steel strip W in a subsequent process by using a preheating device for preheating the steel strip W from which water and salt fine particles have been removed.

1: First dry air injection device
2: Thickness measuring device
3: Steel plate heating device
4: Short blast device
5: Second dry air injection device
6: Paint sprayer
7: Paint drying device

Claims (6)

As a method for treating rolled steel for general structure so as to be usable as a material for ships or large tanks,
A step of spraying high-pressure dry air on the rolled steel to remove deposits,
A step of heating the surface temperature of the rolled steel from which deposits have been removed by 5 to 20 ° C higher than the atmospheric temperature;
A step of short-blasting the rolled steel heated to a predetermined temperature,
A step of spraying dry air on the shot-blasted rolled steel to remove water and fine salt particles;
Spraying a paint onto the rolled steel from which water and salt fine particles have been removed,
And a step of spraying hot air on the rolled steel to which the paint is sprayed to dry the paint. As a facility for processing rolled steel for general structure so that it can be used as a material for ships or large tanks,
A first dry air injector for injecting high-pressure dry air for removing the deposit to the rolled steel,
A heating device for heating the surface temperature of the rolled steel from which deposits have been removed by 5 to 20 ° C higher than the atmospheric temperature;
A shot blasting device for shot blasting the rolled steel heated to a predetermined temperature,
A second dry air injection device for spraying dry air for removing water and fine particles of the salt to the shot-blasted rolled steel,
A paint spraying device for spraying paint onto the rolled steel from which water and salt fine particles have been removed,
And a paint drying apparatus for spraying hot air on the rolled steel to which the paint is sprayed to dry the paint. 3. The method of claim 2,
Wherein the shot blasting device is provided with projection means for a projection material capable of projecting the projection material at an angle of 45 to 60 degrees with respect to the horizontal plane from the upstream side in the conveying direction of the rolled steel on the surface of the rolled steel Structural rolling mill processing equipment. 3. The method of claim 2,
The second dry air injection device is characterized in that a dry air injection nozzle is provided on the surface of the rolled steel so that dry air can be injected at an angle of 45 to 60 degrees with respect to a horizontal plane from the downstream side in the direction of conveyance of the rolled steel Processing equipment for rolled steel for general structure. 5. The method according to any one of claims 2 to 4,
And a thickness measuring device for measuring the thickness of the rolled steel in which the adhering moisture and the non-fixed adhering fine powder are blown off. 5. The method according to any one of claims 2 to 4,
And a preheating device for preheating the rolled steel from which water and salt fine particles have been removed.

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