KR20120036799A - A method for treating rolled steel for a general structure and facilities therefor - Google Patents

Abstract

An object of the present invention is to provide a method for treating a general structural rolled steel that can prevent the coating film formed on the general structural rolled steel from peeling off after the shot blasting treatment. The method comprises the steps of: spraying high pressure dry air onto the rolled steel to remove deposits attached to the rolled steel, heating the rolled steel from which the deposits are removed to a predetermined temperature, and rolling steel heated to a predetermined temperature. The process of shot blasting, the process of spraying dry air on the shot blasted rolled steel to remove moisture and salt fines, the process of spraying paint onto the rolled steel from which moisture and salt fines are removed, and the coated steel And drying the paint by blowing hot air.

Description

Method for treating rolled steel for general structural use and its facilities {A METHOD FOR TREATING ROLLED STEEL FOR A GENERAL STRUCTURE AND FACILITIES THEREFOR}

This invention relates to the processing method of the rolled steel for general structures, and its installation. In particular, the present invention relates to a method of treating a rolled steel for general structural use so as to be used in a ship or a large tank, and a facility thereof.

Conventionally, as such a method, a method of performing shot blasting or acid picking on a surface of a steel plate and then shot primer coating or chemical conversion coating is known.

Japanese Patent Application Laid-open No. Hei 8-24781

However, in the conventional method for treating rolled steel for general structural having the above-described structure, the oxide film attached to the rolled steel is completely removed from the surface by shot blasting. However, since the surface of the rolled steel is treated by shot blasting, and the base metal of the surface polished and exposed to metallic luster is exposed, a trace amount of new oxide layer is immediately formed on the shot blasted active surface due to chemical reaction such as oxidation. . Thus, 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 part is exposed to an environment containing rain or sea water, it penetrates into the gap between the coating film and the base metal, and the surface of the rolled steel is considerably corroded.

This invention is made | formed in view of the said situation. That is, the objective of this invention is providing the processing method of the general structural rolled steel which can prevent peeling of the coating film formed in the rolled steel after a shot blasting process from the rolled steel, and its installation.

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

That is, the treatment method of general structural rolled steel is:

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

Heating the rolled steel from which deposits have been removed to a predetermined temperature;

Performing shot blasting of the rolled steel heated to a predetermined temperature;

Spraying dry air on the shot blasted rolled steel to remove water and salt fine particles;

Spraying paint onto the rolled steel from which water and salt fine particles are removed;

And spraying hot air onto the rolled steel to which the paint is applied to dry the paint.

The present invention is:

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

Heating the rolled steel from which deposits have been removed to a predetermined temperature;

Short blasting the rolled steel heated to a predetermined temperature;

Spraying dry air on the shot blasted rolled steel to remove water and salt fine particles;

Spraying paint onto the rolled steel from which water and salt fine particles are removed;

Since it includes the step of drying the paint by spraying hot air to the rolled steel coated with the paint, moisture and salt fine particles are removed from the surface of the rolled steel, the base metal having a metallic luster and easily chemically reacted is exposed by shot blasting. do. Therefore, the coating film can be in close contact with the surface of the rolled steel, so that any peeling that can occur between the coating film and the rolled steel can be reliably prevented. That is, the present invention has a very good effect.

BRIEF DESCRIPTION OF THE DRAWINGS It is a front view of the processing installation of the rolled steel for general structural use of one Embodiment of this invention.
FIG. 2 is a plan view of the processing equipment for the general structural rolled steel of FIG. 1. FIG.
FIG. 3 is an enlarged front view of the first dry air jetting apparatus and the thickness measuring apparatus, which are main components in the processing equipment of the general structural rolled steel of FIG. 1.
FIG. 4 is an enlarged front view of the shot blasting apparatus, which is a main component in the processing equipment of the general structural rolled steel of FIG. 1.

EMBODIMENT OF THE INVENTION Hereinafter, one Embodiment of the processing facility of the rolled steel for general structures of this invention is described based on FIGS. As shown in Figures 1 and 2, the installations are arranged in a row from left to right in order:

A first dry air injector 1 for injecting high pressure dry air to both sides of the steel sheet W so as to remove deposits attached to the steel sheet W corresponding to the rolled steel;

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

A heating device 3 for heating both sides of the steel plate W from which the deposit is removed to a predetermined temperature;

Shot blasting apparatus 4 which shot-blasts both sides of steel plate W heated at predetermined temperature,

A second dry air injector 5 for injecting dry air to both sides of the shot blasted steel sheet W so as to remove moisture and salt fine particles adhered to the steel sheet W,

A paint spraying device 6 for spraying paint on the steel plate W from which water and salt fine particles are removed;

The paint drying apparatus 7 which sprays hot air on the steel plate W to which the coating material was apply | coated, and dries the coating material on the steel plate W is included.

As shown in FIG. 1, these devices arranged in a line are connected by the roller conveyor 8 which extends from the left side to the right side of a installation, and conveys the steel plate W. As shown in FIG. In addition, as shown in FIG. 3, the first dry air injector 1 includes a nozzle 11 for injecting compressed air to blow off moisture or dust particles adhering to the steel plate W, and a blower pipe. Roots blower (13) for supplying compressed air to the nozzle (11) through a blower pipe (12). The thickness measuring device 2 comprises a laser displacement sensor. The steel plate heating apparatus 3 which heats the steel plate W has a heat source using infrared rays.

As shown in FIG. 4, the shot blasting apparatus 4 which shot-blasts the steel plate W is:

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

A plurality of centrifugal projection apparatuses 42 for short blasts, which are disposed above and below the cabinet 41,

A lower screw conveyor 43 disposed under the cabinet 41 and recovering the projected projection material;

A bucket elevator 44 disposed at an end of the lower screw conveyor 43 and carrying the recovered projection material upward;

A balloon separator (45) disposed above the bucket elevator (44), for removing the film fragments and particles contained in the projection material;

An upper screw conveyor 46 disposed below the separator 45,

It is disposed above the centrifugal projection device 42 and includes a projection material hopper 47 for storing the projection material.

As shown in FIG. 4, an on-off valve 48 for supplying the projection material to the centrifugal projection device 42 is disposed below the projection material hopper 47. The on-off valve 48 is connected to the centrifugal projection apparatus 42 by the pipe which supplies a projection material to the centrifugal projection apparatus 42. The centrifugal projection apparatus 42 is arrange | positioned at the upper surface and lower surface of the steel plate W, and can project a projection material from 45 degrees to 60 degrees from the longitudinal direction of a steel plate from the upstream side and downstream side of the conveyance direction of a steel plate. .

As shown in FIG. 4, the 2nd dry air injector 5 which injects dry air to the steel plate W includes the duct pipe 52 which connects a Roots blower and the dry air injection nozzle 51, and dry. The dry air injection nozzle height adjustment mechanism (not shown) which can adjust the vertical position of the air injection nozzle 51 according to the thickness of the steel plate W is included. The dry air injection nozzle 51 inclines 45-60 degree | times from the horizontal surface (the longitudinal direction of a steel plate), and can inject dry air from the downstream side to the upstream side of the conveyance direction of a steel plate.

As shown in FIG. 1, the paint spraying apparatus 6 which sprays a paint onto the steel plate W is arrange | positioned in a horizontal direction, and the reciprocating coating apparatus which uses an airless-type nozzle gun 61 is shown. to be. Four nozzle guns 61 are provided in the upper surface and the lower surface of the steel plate W, respectively. These guns 61 can move in the width direction, the longitudinal direction, and the vertical direction of the steel plate W. FIG. The vertical position of the nozzle gun 61 is determined based on the thickness of the steel plate W so that the distance between the surface of the steel plate W and the gun 61 is 300 mm. This distance is measured by the thickness measuring device 2. Moreover, the nozzle gun 61 can spray a paint, reciprocating in the width direction of the steel plate W based on the conveyance speed of the steel plate W. As shown in FIG.

In addition, as shown in FIG. 1, the paint-drying apparatus 7 is forced hot air type | mold, and includes the burner which burns LPG gas, and the air blowing fan 71. As shown in FIG.

In the above-described equipment, for example, the steel sheet W having a width of 5500 mm, a length of 9000 mm, and a thickness of 45 mm is coated from the first dry air injection device 1 to the paint drying device 7 by the roller conveyor 8. Transfer to). That is, first, the steel plate W is transferred to the first dry air injection device 1. Then, high pressure air is sprayed on the surface of the steel sheet W to remove deposits attached to the steel sheet W. The deposit contains liquid such as rain water, dust particles, and fine particles of sodium chloride crystals derived from sea water, which adhere to the steel plate W when the steel plate W is stored outdoors. After removing the deposit from the steel sheet W, the steel sheet W is transferred to the position where the laser displacement meter serving as the thickness measuring device 2 for measuring the thickness of the steel sheet W is placed, thereby reducing the thickness of the steel sheet W. Measure In the subsequent process, the measured thickness is used to determine the height of the dry air jet nozzle 51 and the vertical position of the nozzle gun 61 of the paint spraying device 6.

Next, the steel plate W is transferred to the heating apparatus 3. Then, both sides of the steel sheet W are heated so that the surface temperature of the steel sheet W increases by 5 to 20 ° C from the atmospheric temperature. Then, the heated steel sheet W is transferred to the shot blasting apparatus 4. By the shot blasting apparatus 4, the projection material is projected from the centrifugal projection apparatus 42 at 400 kg / min, and the steel plate W is burned. As a result, the surface roughness Rmax of the steel plate W will be 35-70 micrometers after a shot blasting process. 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 shot blasted steel plate W is transferred to the 2nd dry air injection apparatus 5. Then, water and salt fine particles are removed from the steel plate W by spraying dry air on both sides of the steel plate W. That is, by spraying the dry air generated by the Roots blower from the dry air injection nozzle 51 onto the steel sheet W having a metallic luster and easily reacting with the base metal, moisture and salt fine particles are extracted from the steel sheet W. Blow off and remove.

In addition, the dry air injection nozzle 51 is opposed to the conveying direction of the steel plate W so that the water and salt fine particles removed from the steel plate W do not fly toward the paint spraying device 6 arranged downstream. 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 square meter.

Next, the steel plate W from which moisture and salt fine particles are removed is transferred to the paint spraying device 6, and the coating material is sprayed on both sides of the steel plate W by the nozzle gun 61. After forming the coating film made of paint, the coated steel sheet W is transferred to the paint drying apparatus 7. By burning LPG gas, air heated at 70 to 80 ° C. is blown onto the surface of the steel sheet W by the air blowing fan 71, and the paint of the steel sheet W is dried.

Therefore, as mentioned above, the process of processing and processing the steel plate W is completed.

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

In the above-described embodiment, the airless nozzle gun 61 is used as the paint spraying device 6. However, the paint spraying device 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 a paint spraying device.

Moreover, the coating material of the steel plate W can also be easily dried in a subsequent process using the preheating apparatus which preheats the steel plate W which remove | eliminated water and salt fine particles.

1: first dry air injection device
2: thickness measuring device
3: steel plate heating device
4: shot blasting device
5: the second dry air injection device
6: paint spraying device
7: paint drying device

Claims (6)

As a method for treating rolled steel for general structural purposes,
Spraying high pressure dry air on the rolled steel to remove deposits attached to the rolled steel;
Heating the rolled steel from which deposits have been removed to a predetermined temperature;
Short blasting the rolled steel heated to a predetermined temperature;
Spraying dry air on the shot blasted rolled steel to remove water and salt fine particles;
Spraying paint onto the rolled steel from which water and salt fine particles are removed;
A method for treating rolled steel for general structure, comprising the step of spraying hot air onto the rolled steel to which the paint is applied to dry the paint. As processing equipment for general structural rolled steel,
A first dry air injector for injecting high pressure dry air into the rolled steel to remove deposits adhered to the rolled steel;
A heating device for heating the rolled steel from which deposits have been removed to a predetermined temperature;
A shot blasting apparatus for shot blasting the rolled steel heated to a predetermined temperature;
A second dry air injector which injects dry air into the shot blasted rolled steel so as to remove moisture and salt fine particles adhered to the rolled steel;
A paint spraying device for spraying paint onto the rolled steel from which water and salt fine particles are removed;
And a paint drying apparatus for drying the paint on the rolled steel by injecting hot air into the rolled steel coated with the paint. The method of claim 2,
The said shot blasting apparatus is a processing apparatus of the rolled steel for general structures which includes the projection means of the projection material which can project a projection material from 45 degree to 60 degree direction from a horizontal plane from the upstream to the downstream of the conveyance direction of the said rolled steel. The method of claim 2,
The said 2nd dry air spraying apparatus is equipped with the processing equipment of the rolled steel for general structural use which includes the dry air injection nozzle which can inject dry air from the downstream side to the upstream of the conveyance direction of the said rolled steel in the 45-60 degree direction from a horizontal plane. . The method according to any one of claims 2 to 4,
Further comprising a thickness measuring device for measuring the thickness of the rolled steel is blown off the moisture and fine particles attached to the rolled steel but not fixedly attached. The method according to any one of claims 2 to 4,
The preliminary heat pretreatment apparatus which preheats the said rolled steel which remove | eliminated water and microparticles | fine-particles further contains the processing equipment of the rolled steel for general structures.

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