KR101365650B1 - Cement type PFP construction method of onshore ＆ offshore structure - Google Patents

Abstract

The present invention relates to a cement-type flame prevention construction method of land, offshore structures, and more specifically, to use a cement to reduce the cost for the construction of the PFP, but by welding the spot pin to maximize the adhesion to cement The present invention relates to a cement flame-proof construction method for land and marine structures.
To this end, a metallizing step of metallizing the main member of the land, offshore structure (metalizing); After the metallizing step, the coating step of coating the surface of the main member; A portion of the cement along the circumference of the main member Spot pin welding step of welding a plurality of spot pins to increase the adhesion; Mesh installation step of installing the mesh along the circumference of the main member to which the spot pin is welded; Key coating step of increasing the volume of the mesh is installed by first applying the cement to the site where the mesh is installed; Cementing main operation step to finish by applying cement around the key coated main member: Spot pins are welded to protrude from the main member; formed at the end of the welded portion is made of a circular plate, the groove is formed along the circumference of the exposed surface, characterized in that consisting of the attachment portion formed with a plurality of holes around the groove To provide a cement flame-resistant construction method of land, offshore structures.

Description

Cement type PFP construction method of onshore & offshore structure}

The present invention relates to a cement-type flame prevention construction method of land, offshore structures, and more particularly to a cement-type flame prevention construction method of land, offshore structures that maximizes the cement adhesion to reduce the cost of PFP construction.

PFP (Passive Fire Protection) Fireproof coatings are coated on bulkheads, decks, steel structures (Bulkhead, Deck) to cope with oil explosion fire in ships or marine structures, Thereby protecting the structure.

In this case, PFP construction using PFP refractory paint is a construction to prevent sudden decrease in strength of main structures in the event of a fire in the offshore and onshore structures, to secure evacuation time, to prevent the spread of fire, and to protect people and property.

The PFP construction is a construction for keeping the direct delivery of the flame for a certain period of time, and it is applied only to the main structures of the meat and marine structures rather than the whole structure.

For example, PFP is applied to a structure having a grating, and mainly PFP is applied only to a main support of the structure.

That is, the PFP is applied to the main support structure, which is the main structure of the marine structure and the marine structure, so that even if a fire occurs, the support force against the main support is secured for a certain period so that the marine structure is not collapsed by the flame in a short time .

Hereinafter, the PFP construction will be briefly described with reference to FIG.

First, for the PFP construction, the blasting operation is performed so that rust does not occur on the surface of the main support (S10).

Thereafter, PFP material of an organic compound such as epoxy or mineral wool is applied to the surface of a vertical load main member to perform a primary PFP coating operation (S20).

Next, to increase the adhesion of the PFP material to the main support to install a mesh on the main support (S30).

Next, after applying the PFP material to the main support secondary (S40), by drying (S50) PFP construction is completed.

On the other hand, the PFP material for the construction of PFP is used an organic compound such as epoxy or mineral wool, when using the PFP material as described above, there was a problem that the cost of the PFP construction is excessively required.

Therefore, there was a problem in that the economic feasibility for PFP construction.

In addition, in the process of PFP construction, there was a problem that the adhesion of the PFP material to the main support is not maximized.

Of course, although the adhesive force of the PFP material is increased by using a member such as a mesh, an improvement in the adhesion force to the PFP material is required.

Korea Open 10-2010-0110560 Korea Patent Application 10-2011-0106919

The present invention has been made to solve the above problems, an object of the present invention is to lay the cement on the main load (vertical load main member) to reduce the cost for the construction of the PFP, land and sea maximizing the adhesion to the cement It is to provide a cement flame prevention method of the structure.

The present invention to achieve the above object, a metallizing step of metalizing (metalizing) to the main member of the land, offshore structure; after the metallizing step, the coating step of coating the surface of the main member; Spot pin welding step of welding a plurality of spot pins to increase the adhesion of the cement along a part of the periphery of the member; Mesh installation step of installing the mesh along the periphery of the main member to which the spot pin is welded; Key coating step of increasing the volume of the mesh is installed by first applying the cement to the site where the mesh is installed; Cementing main operation step to finish by applying cement around the key coated main member: Spot pins are welded to protrude from the main member; formed at the end of the welded portion is made of a circular plate, the groove is formed along the circumference of the exposed surface, characterized in that consisting of the attachment portion formed with a plurality of holes around the groove To provide a cement flame-resistant construction method of land, offshore structures.

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Cement-type flame prevention method of the land, offshore structures according to the present invention has the following effects.

First, since the construction of PFP using cement, the cost is reduced compared to organic compounds such as epoxy or mineral wool, thereby increasing the economics of PFP construction.

Second, before the main work on the cement is placed, the key coating to apply the cement first to the main member is made, thereby maximizing the cement adhesion during cement main work.

That is, since cement has a property of flowing down, the thickness of the cement to the main member can be maximized by first applying the cement to the main member before the main work of the cement and securing a certain thickness from the main member, and then applying the cement again. In addition, the cement of the same material is applied again on the first applied cement to maximize the adhesion between each other.

Third, a spot pin is additionally installed to increase the adhesion force of the cement to the main member. The spot pin is attached to the spot pin so that the cement is entangled in the spot pin by the groove formed in the through hole and the exposed surface through which the cement can pass the attachment part. The attachable effect can be maximized.

In addition, it is possible to increase the cement curing effect by effectively evaporating the water disposed inside the attachment portion through the through hole.

1 is a flow chart illustrating a conventional method for constructing PFP of land and marine structures
Figure 2 is a flow chart showing a cement flame prevention construction method of the land, offshore structures according to a preferred embodiment of the present invention
Figure 3 is a perspective view showing a spot pin for the cement-type flame prevention construction method of land, offshore structures according to a preferred embodiment of the present invention
Figure 4 is a sectional view of the main part showing a state in which the PFP construction is made to the main member by the cement-type flame prevention construction method of the land, offshore structures according to a preferred embodiment of the present invention.

It is to be understood that the words or words used in the present specification and claims are not to be construed in a conventional or dictionary sense and that the inventor can properly define the concept of a term in order to describe its invention in the best possible way And should be construed in light of the meanings and concepts consistent with the technical idea of the present invention.

Hereinafter, with reference to the accompanying Figures 2 to 4 will be described for the cement-type flame prevention construction method of land, offshore structures according to a preferred embodiment of the present invention.

Cement type flame prevention construction method of land and offshore structure is a technical feature that maximizes cement adhesion to the main member as well as reducing the cost for PFP construction by using cement as a material to protect the main member from fire in case of fire. There is this.

To this end, the PFP construction method of the present invention, first, performs a blasting operation on the surface of the main support constituting the ground, offshore structure. (S100)

This is to remove the rust so that the adsorption of the PFP material described later can be efficiently performed.

Next, metallizing is performed on the blasted main member. (S200)

This is to prevent rust from occurring on the surface of the main member, and the antirust material for metallizing is preferably zinc.

Next, the main member is coated to finish the external work of the main member. (S300)

Next, the spot pin is welded to the main member of which the appearance work is completed.

The welding of the spot pin is to maximize the adhesion of cement to the main member during the key coating and cementing work described below.

The spot pin 100 is fixed in plural along a portion of the main member.

At this time, the spot pin 100 is composed of a welding portion 110 and the attachment portion 120 as shown in FIG.

The welding part 110 is a part to be welded to the main member and has a bar shape so as to protrude from the surface of the main member.

That is, one end of the welding portion 110 is spot welded to the surface of the main member.

Then, the attachment portion 120 serves to maximize the adhesion of the cement during the main coating and cementing the main member, it is formed on the other end of the welding portion (110).

Attachment portion 120 is formed of a circular plate, the groove 121 is formed on the exposed surface of the attachment portion 120 along the circumference.

The groove 121 is to ensure that cement cemented well to the surface of the attachment portion 120 when the cement is applied.

That is, the surface of the attachment portion 120 in which the groove 121 is formed is to maximize the adhesion to the cement compared to the flat surface of the attachment portion 120 is formed.

In addition, the attachment portion 120 is formed with a plurality of through holes 122 penetrating both sides of the attachment portion 120.

The through-hole 122 allows cement disposed on both sides of the attachment part 120 to entangle well with the attachment part 120 while passing through the attachment part 120 to increase the adhesion force of the cement to the attachment part 120. Play a role.

That is, since cement may be entangled with the attachment portion 120 while leaking through the through hole 122 of the attachment portion 120, the adhesion to cement may be maximized.

In addition, the through hole 122 serves to maximize the curing effect of the cement by allowing the water of the cement to effectively evaporate through the through hole 122 when the water repellent is applied to the cement for effective curing of the cement.

On the other hand, after the spot pin 100 is welded to the main member, the spot pin 100 performs the operation of installing the mesh along the circumference of the welded main member (S500).

This is to prevent the PFP layer from being distorted due to the high temperature even when a fire occurs in the marine structure and the flame is transferred to the PFP layer.

In other words, the mesh serves as a skeleton so that the PFP layer is not distorted.

In addition, since the mesh is installed, cement can be effectively entangled in the mesh, thereby further increasing the effect of cement adhesion.

Next, when the installation of the spot pin and the mesh to increase the adhesion of the cement to the main member as described above is completed, the cement is applied to the main member in earnest to form a PFP layer.

At this time, instead of applying the cement to the main member at once, the key coating is performed first so that the thickness of the PFP layer can be effectively formed on the main member.

That is, since the physical properties of the cement flows down, it is almost impossible to maximize the thickness of the cement at once.

The cement-type PFP layer is formed of approximately 40-50 mm from the main member, but it is impossible to cure by applying cement at 40-50 mm at a time.

Accordingly, the key coating is applied to the cement as much as the thickness of the cement does not flow down, the key coating is to spray the cement to the main member using a spray gun.

Next, when the key coating operation is completed, the cementing is performed to apply cement on the key coated cement. (S700)

At this time, the sprayed cement is applied on the cement of the key material of the same coating, it is possible to maximize the adhesion of the cement.

Subsequently, when the cementing main work is completed, a cement-type PFP layer protruding from the main member by a predetermined thickness is formed, and the cement-type PFP construction is completed by curing the PFP layer.

As described so far, the cement-type flame prevention construction method for land and marine structures according to the present invention has a feature that can reduce the cost for PFP construction by using a low-cost cement material of the PFP layer for PFP construction. .

In addition, in using the cement, by providing a plurality of through-hole spot pins to maximize the curing and adhesion to the cement it is possible to maximize the efficiency of PFP construction of land, offshore structures using cement .

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art.

100: spot pin 110: welded portion
120: attachment portion 121: groove
122: through hole

Claims (2)

A metallizing step of metallizing the main member of the land and offshore structures;
After the metallizing step, a coating step of coating the surface of the main member;
A spot pin welding step of welding a plurality of spot pins to increase the adhesion of cement along a portion of the main member;
A mesh installation step of installing a mesh along a part of a circumference of the main member to which the spot pin is welded;
A key coating step of increasing the volume of the site where the mesh is installed by first applying cement to the site where the mesh is installed;
Cementing this operation step of finishing by applying cement around the key coated main member:
The spot pin is welded to protrude from the main member; formed at the end of the welded portion is made of a circular plate, the groove is formed along the circumference of the exposed surface consisting of an attachment portion formed with a plurality of holes around the groove Cement-type flame prevention construction method of land, offshore structure characterized by.

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