KR101963555B1 - External Wall Decorative Material of Building and Manufacturing Method Thereof - Google Patents

Abstract

The present invention relates to an outer wall decoration material for a building and a manufacturing method thereof. The outer wall decoration material comprises: a board member for internal reinforcement made of phenolic foam which is a limited-combustible material, and having a predetermined shape; a metal molding member having the same shape as the board member for internal reinforcement to be combined with the outer surface of the board member; and a steel plate angle member for connection mounted on a lateral side of the board member to install the board member. Therefore, instead of an existing complex internal structure, the exterior and shape of the metal molding member are maintained, and also, the board member for internal reinforcement installed in the metal molding member is made of a limited-combustible phenolic foam material, so the outer wall decoration material does not cause toxic gas in case of a fire, and the board member for internal reinforcement, which is installed at regular intervals, can reduce costs for construction and weight.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a decorative material for a building,

The present invention relates to an outer wall decorative material of a building and a manufacturing method thereof, and more particularly, to a method of manufacturing an outer wall decorative material of a building by combining a metal material molding member made of a metal material with an outer surface of an inner reinforcement board member made of quasi-non- The present invention relates to an outer wall decorative material of a building which can maintain the shape of a metal material molding member for a long time, and a manufacturing method thereof.

Generally, the surface exposed to the outside of the structure such as the wall, the ceiling or the floor of an architectural structure is finished so that the appearance thereof can be decorated beautifully.

As a finishing material used for the finishing work, various kinds of materials have been known in the past. In particular, in the case of building stone such as granite and marble, since it can produce a luxurious atmosphere along with natural beauty, the use thereof as an interior and exterior finishing material for construction has increased .

As described above, in the case of the finishing material using stone, a natural stone ore is usually taken from Ishiyama, cut into a relatively thin plate, and then subjected to surface processing such as polishing to produce a panel having a certain area. The frame is installed in a row or in a lattice with iron pipes on the wall, and then a stone panel is attached up and down continuously to form a wall finish.

Since the walls of the wall are finished using the stone panels as described above, the natural texture of the stone can be utilized as it is made of the natural stone material, so that it can give a relatively natural appearance and is also resistant to wear and weathering. Good bar, which is a relatively expensive material, but one of the generally preferred materials for architectural finishes.

However, when the above-mentioned stone is used as a decorative material for a building such as a building, complicated manufacturing processes such as extraction of a stone, plate processing, and surface processing are required, and the cost is higher than other materials.

Further, since the stone has a relatively large load as compared with other materials, there is a problem that a mounting structure capable of withstanding the load of the stone is required when the stone is installed on the outer wall of the building.

In order to solve the above-mentioned problem, metal molding or EPS (expanded polystyrene) molding has been applied instead of conventional stone as a molding for decorating the outer wall of a building, but eps (expanded polystyrene) molding is vulnerable to fire In the case of the metal molding, there is an advantage that it is possible to use semi-permanently since the occurrence of pollution is small and the surface durability is strong. However, not only the problem of the product molding is difficult and the manufacturing cost is high, but also the inside of the molding is empty, There is a problem.

Accordingly, there is a need for a construction method that can easily and easily remove noise when the metal moldings, which are quasi-nonflammable materials, are applied to the outer wall of a building.

The decoration material of a building is a decoration method which makes a prominent or concave shape by pushing the corner or surface of a base end, a doorpost, a corner, an arch, etc. It is a structure which mainly decorates the outside by a round type such as an annular type, .

The outer wall of the building is different from the construction of the exterior by the choice of the finishing material and the construction of the molding material to which the building is applied rather than the plain and plain construction.

Therefore, as Korea's architectural culture has gradually become westernized, much attention has been paid to exterior wall finishing materials and construction methods in order to differentiate the exterior walls of the building beautifully.

Molding materials that have been used so far to give decorative effect according to the outer wall finishing materials include stone molding made by processing stone, steel molding molded by folding iron plate, and glass fiber reinforced plaster molding.

Since these products are not only difficult to mass-produce but also can be constructed only by skilled workers, their costs are so high that they are not widely available.

 Since the 1980s, exterior wall finishing systems (aka dry bit systems) have been introduced domestically, and the exterior wall design has changed dramatically until recently.

The outer wall finishing system is a styrofoam molding structure, for example, in which a molding mold of a styrofoam is attached to an outer wall heat-insulating finishing material, the glass fiber is reinforced, and the necessary finishing is performed thereon.

This structure is used for various buildings that can be used for any finishing material in addition to the outer wall insulation system because it is light in weight, low in construction cost, and simple in construction.

However, since it is widely used up to the outer wall of a high-rise apartment building, the material is easily damaged by impact due to the limit of the durability of the styrofoam.

Although the outer part is reinforced with glass fiber, the operation of applying glass fiber and reapplying the cured resin is all done by hand, resulting in poor precision and poor productivity.

In addition, the foamed concrete is easy to handle because it is lightweight, and it has good workability. However, it is very simple because of the limit of the concrete.

Another disadvantage is that it is not durable and is destroyed due to cracks and the like over a long period of time.

Also, the foamed synthetic resin material is also weak in light impact and is deteriorated due to exposure to sunlight, low temperature and high temperature for a long time, and is detached or destroyed for a long time.

FIG. 1 is a view showing the structure of a molding for molding of the prior art.

The iron bracket 50 is fixed to the wall 10 of the building on which the molding 60 is to be installed by the anchor bolts 34 and the iron bracket 50 fixed to the wall 10 is molded 60 The upper portion of the molding 60 is pierced with a drill to fix the molding 60, and then the molding 60 is fixed to the screw 32 with screws.

The installation of the molding 60 is completed by punching the upper portion of the molding 60 with the drill and filling the cracks and the drill marks with silicon.

One side of the iron bracket 50 is fixed to the wall surface 10 by anchor bolts 34 and the other side of the iron bracket 50 is fixed with screws 32.

The structure of the conventional architectural ornamental molding 60 is such that when the upper portion of the molding 60 is drilled to fix the molding 60, cracks are generated in the upper portion of the molding 60 and the cracks There is a problem that the silicon bracket 50 is corroded and the molding 60 is broken.

In the structure of the conventional architectural ornamental molding 60, water is introduced into cracks in the upper part of the molding 60, water is absorbed into the expanded polystyrene (EPS) 70 inside the molding and the molding 60 The weight of the EPS 70 itself is increased and the EPS 70 is corroded.

For example, Patent Document 1 below discloses a 'molding ornamental member'.

The molding decoration molding material according to the following Patent Document 1 has a step of extruding a ceramic coating composition on the surface of an expandable polystyrene (EPS) molding material by an extrusion method to form a ceramic coating layer on the surface of the expanded polystyrene, And a second curing step, the extrudate is first cured for 30 minutes to 2 hours using hot air at 25 ° C to 45 ° C, and the first cured extrudate Is cured at room temperature for 24 minutes to 48 hours, and the ceramic coating composition is coated 8 mm to 10 mm when extruded once, and the curing step and the extrusion step are repeatedly performed two to three times, The final thickness of the polystyrene molding material and the ceramic coating layer coated on the surface thereof is 20 to 25 mm.

Korean Utility Model Publication No. 20-2010-0004568 Korean Patent Registration No. 10-1530359

SUMMARY OF THE INVENTION The object of the present invention is to solve the above-mentioned problems, and an object of the present invention is to provide a method of manufacturing a metal mold, which is capable of maintaining the outer shape and shape of the metal molding member, And a method for manufacturing the same.

It is another object of the present invention to provide an outer wall decorative material of a building which forms a vermiculite coating layer on the inner surface of a metal molding member to reduce noise generated in rainy weather, and a method of manufacturing the same.

In order to achieve the above-mentioned object, an outer wall decorative material of a building according to the present invention comprises a board member for internal reinforcement formed of a phenol foam which is a semi-incombustible material and formed in a predetermined shape; A metal molding member formed in the same shape as the inner reinforcing board member and coupled to the outer surface of the inner reinforcing board member; And a connecting steel plate angle member provided on the side surface of the inner reinforcing board member so as to be provided with an inner reinforcing board member.

An upper plate formed to be coupled to a rear surface of the inner reinforcing board member; An upper plate formed to be inclined at a predetermined angle from a tip end of the upper plate; An upper vertical plate vertically formed at a front end of the upper plate; A reverse osmosis plate sloped inward from a lower end of the upper vertical plate; A lower vertical plate vertically formed at the tip of the reverse osmosis plate; A lower plate horizontally connected to a distal end of the lower vertical plate; And a lower plate coupled to a lower side of the rear surface of the inner reinforcing board member.

And a vermiculite coating layer having a predetermined thickness is formed on the bottom surface of the upper plate to prevent noise generated from the metal molding member.

The upper plate is formed to be inclined at a predetermined angle so that rainwater flows smoothly,

The back plate is formed so as to be inclined at a predetermined angle to prevent inflow of rainwater.

And the inner reinforcement board member includes a fixing groove portion formed to engage the connecting steel plate angles.

According to another aspect of the present invention, there is provided a method of manufacturing an outer wall decorative material of a building, the method including: forming an inner reinforcing board member into the same shape and dimensions as the outer wall decorative material; Cutting the metal molding member to have the same shape as the front surface shape of the inner reinforcement board member, painting the outer surface thereof, and bonding and assembling the surface of the inner reinforcement board member with silicon; Forming a vermiculite coating layer on the bottom surface of the metal molding member to a predetermined thickness; And fixing the linear fixing plate to the back surface of the internal reinforcing board member.

As described above, according to the outer wall decorative material of the building of the present invention and its manufacturing method, instead of the existing complex inner structure, the outer shape and shape of the metal molding member are maintained, The board member is made of a non-combustible phenol foam material so that toxic gas is not generated when a fire occurs, and the internal reinforcement board members are provided at regular intervals to reduce the construction cost and weight.

According to the present invention, it is possible to form a vermiculite coating layer on a metal material molding member to reduce noise generated during rainstorms, to adhere the inner reinforcement board member and the metal material molding member to each other by silicone, And the adjacent metal plate molding member can be easily installed by the steel plate angle member for connection. Thus, the construction period of the outer-wall decorative material can be remarkably reduced.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing the structure of a molding for molding of the prior art,
FIG. 2 is an exploded perspective view showing an outer wall decorative material of a building according to a preferred embodiment of the present invention,
3 is an exploded perspective view showing an outer wall decorative material of a building according to a preferred embodiment of the present invention,
FIG. 4 is an exploded perspective view showing an outer wall decorative material of a building according to a preferred embodiment of the present invention,
5 is a three-dimensional view illustrating an outer wall decorative material of a building according to a preferred embodiment of the present invention,
6 is a cross-sectional view of a building according to a preferred embodiment of the present invention,
7 is a process diagram showing a manufacturing process of an outer wall decorative material of a building according to a preferred embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Exterior wall decorative materials and methods of manufacturing the same according to preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

The exterior wall decoration material of the building according to the preferred embodiment of the present invention is composed of a phenol foam which is a semi-incombustible material and has an interior reinforcing board member 10 formed in a predetermined shape, A metal molding member 20 formed on the inner reinforcing board member 10 and coupled to an outer surface of the inner reinforcing board member 10, And a steel plate angle member (30).

The outer wall decorative material of the building according to the embodiment of the present invention is a structure in which the structure provided inside the metal material molding member 20 is formed of an inner reinforcing board member 10 made of a phenol foam which is not a expanded polystyrene (EPS) So that the shape of the metal molding member 10 can be stably maintained, and the noise generated during rainstorm can be reduced by the vermiculite coating layer 28, which is a quasi-nonflammable material.

FIG. 2 is an exploded perspective view showing an outer wall decorative material of a building according to a preferred embodiment of the present invention, FIG. 3 is an exploded perspective view showing an outer wall decorative material of a building according to a preferred embodiment of the present invention, Fig. 3 is an exploded perspective view showing an outer wall decorative material of a building according to a preferred embodiment of the present invention.

2 to 4, the outer wall of the building according to the embodiment of the present invention includes an inner reinforcing board member 10 formed in a predetermined shape and an outer reinforcing board member 10 formed on the outer surface of the inner reinforcing board member 10, And a connecting steel plate angle member 30 installed so that the metal reinforcing member 20 and the inner reinforcing board member 10 and the metal molding member 20 are continuously installed.

The inner reinforcing board member 10 is formed in a predetermined shape, and the inner reinforcing board member 10 is made of a semi-fire-resistant material which is not burnt during a fire.

The inner reinforcing board member 10 is formed by mixing phenol resin, a curing agent, and a foaming agent to form a foamed cured product. The inner reinforcing board member 10 is formed of a phenolic foam having little toxic gas generation during combustion and excellent in thermal insulation and thermal insulation effect.

That is, the internal reinforcing board member 10 is made of a semi-fireproof material which is not burnt when a fire occurs, so that combustion is not caused when a fire occurs.

2 to 4, the board main body 11 is formed in a substantially rectangular shape, and the upper portion of one side of the board main body 11 protrudes outward The protruding portion 12 is integrally formed.

Needless to say, the inner reinforcing board member 10 may have various shapes.

The protruding portion 12 protrudes from the front surface of the board main body 11 and the fixing groove portion 13 is formed on the back surface of the board main body 11 to a predetermined depth. The fixing groove portion 13 is formed at a predetermined depth on the back surface of the board body 11 and is formed so that the connecting steel plate angle member 30 is engaged.

The metal molding member 20 is made of a metal having a predetermined thickness. The metal molding member 20 is made of a galvanized steel sheet. The metal molding member 20 is formed to have a thickness of about 0.3 to 1 mm. do.

The metal molding member 20 is formed in the same shape as the inner reinforcing board member 10 and the inner reinforcing board member 10 and the metal molding member 20 are formed in the same shape.

The metal molding member 20 is formed to be coupled to the outer surface of the inner reinforcing board member 10. The upper plate 21 is formed to be in close contact with the back surface of the board body 11, And an upper plate 22 is integrally formed at the front end thereof with the same length as the upper surface of the board main body 11. [

The upper plate 22 is formed to be inclined at a predetermined angle so that rainwater flows smoothly in the rain. An upper vertical plate 23 is formed at a predetermined height at the front end of the upper plate 22 and a reverse circular plate 24 is integrally formed at a lower surface of the upper vertical plate 23.

A lower vertical plate 25 is formed at the distal end of the backward plate 24 and a lower vertical plate 25 is formed at a lower end of the lower vertical plate 25, A lower plate 26 is formed.

A lower plate 27, which is symmetrical with the upper plate 21, is integrally formed at the tip of the lower plate 26.

A vermiculite coating layer 28 is formed on the bottom surface of the upper plate 22 to a predetermined thickness and the vermiculite coating layer 28 is formed to a thickness of about 4 to 8 mm.

The vermiculite forming the vermiculite coating layer 28 is a minerals belonging to a monoclinic system having a crystal structure such as mica and is also called a vermiculare due to the property of expanding upon heating.

Three layers of structured mica-like minerals are composed of 8 ~ 16% of the total moisture content of water, water, medium water and crystal water. Two layers of water layer with a distance of 14.4 Å Of exchangeable cations.

It is also suitable to be used as a heat-resistant material and a soundproofing material because it is easily decomposed into acid, has high cation exchange capacity, and is excellent in absorption ability.

When the vermiculite is heated at 800 ° C ~ 1,100 ° C, the water present in the layers turns into water vapor. As the pressure increases, the vermiculite expands 6 ~ 30 times and expands to become porous crystalline vermiculite or foamed vermiculite. And has excellent heat resistance and sound insulation effect.

That is, the vermiculite coating layer 28 is formed to have a predetermined thickness on the bottom surface of the upper plate 22 so as to sound noises generated when the rainwater hits the rain.

The connecting steel plate angle member 30 is coupled to the inner reinforcing board member 10. The connecting steel plate angle member 30 is provided so as to be continuous with the metal molding member 20. The connecting steel plate angle member 30 includes a vertical plate 31 formed at a predetermined height, 31) are integrally formed at the upper end of the horizontal plate (32).

In addition, a fixing hole 33 is formed in the vertical plate 31 so as to be fixed to a wall surface, and a nail 34 is formed through the fixing hole 33.

A fixing plate 40 is provided on the back surface of the metal molding member 20 and a fixing nail 41 for fixing the fixing plate 40 to a wall surface is provided.

Next, a coupling relation of the outer wall decorative material of the building according to the preferred embodiment of the present invention will be described.

FIG. 5 is a three-dimensional view showing an outer wall decorative material of a building according to a preferred embodiment of the present invention, and FIG. 6 is a sectional view showing a state where an outer wall decorative material of a building according to a preferred embodiment of the present invention is installed.

2 to 6, the outer wall of the building according to the embodiment of the present invention forms the inner reinforcing board member 10 in a predetermined shape, and the outer reinforcing board member 10 is formed on the outer surface of the inner reinforcing board member 10 And a connecting steel plate angle member 30 such that the metal molding member 20 and the plurality of metal molding members 20 are coupled to each other.

The internal reinforcement board member 10 has a board body 11 formed in a predetermined shape and a protrusion 12 integrally formed on the upper surface of the board body 11.

On the rear surface of the board body 11, a fixing groove 13 is formed at a predetermined depth so that the connecting steel plate angle member 30 is engaged. In addition, a joint groove (not shown) can be formed on the board main body 11 if necessary.

The grooved grooves allow the metal molding member 20 to be aligned when the outer wall decorative material is applied.

The inner reinforcing board member 10 is made of a phenol foam material, which is a semi-fireproof material that does not burn well, and can be freely formed in the shape of the exterior material to be applied.

The metallic molding member 20 has the same shape and size as the internal reinforcing board member 10 and the metallic molding member 20 may be made of a galvanized steel sheet so as not to be burned.

The metal molding member 20 is made of a galvanized steel sheet and is installed on the wall surface of the building to maintain a light weight so that a load is not applied.

The vermiculite coating layer 28 is formed to a predetermined thickness on the bottom surface of the metal molding member 20 and the vermiculite coating layer 28 is formed to have a thickness of about 4 to 8 mm, .

The connecting steel plate angle member 30 is formed in a substantially U-shape and has a plurality of fixing holes 33 to be fixed to a wall surface of a building and the like. The fixing nails 34 ).

The metal molding member 20 is coupled to the outer surface of the inner reinforcing board member 10. The metal molding member 20 is joined to the outer surface of the inner reinforcing member 10.

That is, the metal molding member 20 is formed by joining the upper plate 21 to the back surface of the inner reinforcing board member 10 and then connecting the lower plate 27 to the board main body 11 of the inner reinforcing board member 10. [ Bonded to the back surface.

The metal molding member 20 is thin and is easily deformed. The upper plate 21 and the lower plate 27 are coupled to the outer surface of the metal molding member 20 by pulling the upper plate 21 and the lower plate 27 in the vertical direction.

A fixing plate 40 is installed at predetermined intervals on the upper plate 2 and the lower plate 27 of the metal molding member 20 and the fixing plate 40 is fixed to the inner reinforcing board Is fixed to the member (10).

2 to 7, a method of manufacturing an outer wall decorative material according to a preferred embodiment of the present invention will be described.

7 is a process diagram illustrating a manufacturing process of an outer wall decorative material of a building according to a preferred embodiment of the present invention.

As shown in FIGS. 2 to 7, in the method for manufacturing the outer wall decorative material of the building according to the embodiment of the present invention, the inner reinforcing board member 10 is formed by using the phenol foam, which is semi-nonflammable, according to the shape of the decorative material (S10).

That is, the inner reinforcing board member 10 is formed into a shape to be formed by the outer wall decorative material, and is formed into the same shape and dimensions as the outer wall decorative material.

The metallic material molding member 20 is formed by bending and cutting the same shape as that of the internal reinforcing board member 10 at step S20.

The outer surface of the metal molding member 20 thus formed is painted with a vinyl chloride resin primer and is finished to be sprayed with a designated color of the outer wall decorative material.

The metal molding member 20 covers the outer surface of the inner reinforcing board member 10 and is bonded to the bonding surface of the inner reinforcing board member 10 and the metal molding member 20 by bonding .

This is to prevent the inner reinforcing board member 10 and the metal molding member 20 from being separated from each other by firmly bonding the inner reinforcing board member 10 and the metal molding member 20.

On the other hand, the metal molding member 20 is formed to have a thickness of about 0.5 mm, and the vermiculite coating layer 28 is formed to have a predetermined thickness so that no noise is generated on the bottom surface of the upper plate 22 of the metal molding member 20 (S30) .

The vermiculite coating layer 28 is formed to have a thickness of approximately 4 to 8 mm and is sprayed with vermiculite having excellent soundproof effect as a main material.

The fixation plate 40 is fixed to the back surface of the inner reinforcing board member 10 to fix the inner reinforcing board member 10 and the metal molding member 20 together at step S40.

Although the present invention has been described in detail with reference to the above embodiments, it is needless to say that the present invention is not limited to the above-described embodiments, and various modifications may be made without departing from the spirit of the present invention.

10: internal reinforcement board member 11: board main body
12: protruding portion 13: fixed groove portion
20: metal molding member 21: upper plate
22: upper plate 23: upper vertical plate
24: Reverse plate 25: Lower vertical plate
26: lower plate 27: lower plate
28: Vulcanite coating layer
30: steel plate for connection angle member 31: vertical plate
32: horizontal plate 33: fixing hole
34: Tablets
40: Fixing plate 41: Fixing nail

Claims (6)

delete delete delete delete delete The inner reinforcing board member is formed by molding a phenolic resin, a curing agent, and a foaming agent in the same shape and dimensions as the external contour of the external wall decorative material. The foam member is foamed and cured. The protruding portion protrudes outward at one side, Molding the board member;
A metal molding member made of a galvanized steel sheet having a thickness of 0.3 to 1 mm is cut to have the same shape as the front surface shape of the inner reinforcing board member and then an outer surface is coated to adhere and adhere to the front surface of the inner reinforcing board member with silicon ;
Forming a vermiculite coating layer having a thickness of 4 to 8 mm on a bottom surface of the upper plate of the metal molding member;
And fixing the linear fixing plate to the back surface of the internal reinforcing board member,
The metal mold-
An upper plate formed to be coupled to an upper side of the rear surface of the inner reinforcing board member;
An upper plate integrally formed at the front end of the upper plate and having the same length as the upper surface of the board body and inclined at a predetermined angle so that rainwater flows smoothly;
An upper vertical plate vertically formed at a front end of the upper plate;
A reverse osmosis plate sloped inward from a lower end of the upper vertical plate to prevent inflow of rainwater;
A lower vertical plate vertically formed at the tip of the reverse osmosis plate;
A lower plate horizontally connected to a distal end of the lower vertical plate; And
A lower plate coupled to a lower side of the rear surface of the inner reinforcing board member;
/ RTI >
Wherein the inner reinforcement board member is formed with a fixing groove on the back surface thereof to connect the connecting steel plate angle.

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