KR102361053B1 - Construction method of heat insulation for outer wall of building - Google Patents

Abstract

The present invention relates to an external insulation method, and in particular, a thick, flat, and easily low-cost coating of hard mortar to the insulation material to increase the insulation performance and waterproofness, and the flat surface and high-quality finish material for the external insulation thick film flattening method of a building wall it's about
To this end, the present invention comprises the steps of attaching to the outer wall of the building the insulating material of which the remaining surface is cut so that the intermediate bridge protrudes vertically in the vertical direction in the middle; applying a finishing mortar to the surface of the insulating material according to the protruding height of the intermediate bridge; cutting the intermediate bridge of the insulating material; applying an additional finishing mortar to the space in which the intermediate bridge of the insulating material is cut; and applying the final finishing mortar to the finishing mortar.

Description

Construction method of heat insulation for outer wall of building

The present invention relates to an external thermal insulation method, and more specifically, to an insulating material, thick and flat, easily coated with a hard mortar at low cost to increase incombustibility, thermal insulation performance and waterproofness, and flatten the vertical outer wall surface to provide a flat and luxurious look It is related to the method of flattening the external insulation thick film of the building wall, which allows the choice of the final finishing material on the wall.

Korean Patent Application Laid-Open No. 2006-0124093 discloses a prior art method of finishing insulation on the exterior wall of a building, a process of partially applying a resin mortar for adhesion to a concrete exterior wall to attach and cure the insulation, and a resin for plastering on the exterior of the insulation Through the process of attaching and curing the mesh by applying the entire mortar, partially applying the resin mortar for adhesion on the outer surface of the mesh, adhering and curing the finishing material, and filling the joint formed between the finishing materials with resin mortar for finishing is done

However, in the prior art, it is impossible to apply the resin mortar thickly to the outer surface of the insulation material at once, and the thick coating operation is difficult to work on a flat, wide surface without a plasterer expert. There were also problems with many limitations.

KR Patent Publication No. 2006-0124093 (2006.12.05)

The present invention has been proposed in order to solve the problems of the prior art as described above, and by cutting hot wires so that an intermediate bridge of a certain height protrudes from a standard insulation material (600 * 1200 mm), a hard intermediate mortar is applied to the outer surface of the insulation material even if not a plasterer. It can be applied thickly and flatly and can be plastered, so it can be easily and quickly installed at low cost to secure a flat wall surface without irregularities. Its purpose is to provide

The method for flattening an external insulation thick film of a building wall of the present invention for achieving the above object includes the steps of making an intermediate bridge of a certain height to protrude vertically in the vertical direction in the middle and attaching the insulation material from which the remaining surface is cut to the outer wall of the building; applying a finishing mortar to the surface of the insulating material according to the protruding height of the intermediate bridge; cutting the pre-installed intermediate bridge of the insulator; applying an additional intermediate mortar to the space in which the intermediate bridge of the insulating material is cut; And after impregnating and plastering the glass fiber mesh on the intermediate mortar, it is characterized in that it comprises the step of flattening by applying a final finishing mortar.

Here, the middle bridge is cut vertically on one side and obliquely on the other side, but the lower ends of both sides are hot-wired deeper than the surface. characterized in that

The external insulation thick coating film flat method of the building wall of the present invention configured as described above exhibits the following useful effects.

First, by forming an intermediate bridge directly on the insulation material, non-combustibility and insulation performance and waterproofness can be improved by easily and thickly coating the intermediate mortar on the outer surface of the insulation material at low cost, even if not a plasterer skilled.

Second, even if you are not a plasterer by forming an intermediate bridge directly on the insulation, you can easily flatten the hard intermediate mortar on the outer surface of the insulation to make the exposed exterior neat and luxurious, so you can freely choose any finishing material.

1 is a flowchart showing a method for flattening an external insulation thick coating film of a building wall according to the present invention;
Figure 2 is a cross-sectional view showing the external insulation thick coating film flattening method of the building wall according to the present invention;
3 is a perspective view showing the insulating material of the external insulation thick coating film flat method of the building wall according to the present invention.

Hereinafter, preferred embodiments in which the object of the present invention can be specifically realized will be described in detail with reference to the accompanying drawings. In describing the present embodiment, the same names are used for the same components, and an additional description thereof will be omitted.

1 is a flowchart showing a method for flattening an external insulation thick coating film of a building wall according to the present invention, FIG. 2 is a cross-sectional view showing a method for flattening an external insulation thick coating film of a building wall according to the present invention, and FIG. It is a perspective view showing the insulating material of the external insulation thick film flattening method of the building wall according to the

As shown in FIGS. 1 to 3, the method for flattening the external insulation thick film of the building wall of the present invention includes the steps of attaching an insulating material (S100), applying an intermediate mortar (S500), and cutting the intermediate bridge ( S600), is configured to include the step of applying an additional intermediate mortar (S700) and applying the final finishing mortar (S900).

In the step of attaching the insulator ( S100 ), the insulating material 100 from which the rest of the surface is cut is attached to the outer wall of the building so that the intermediate bridge 130 protrudes vertically in the vertical direction in the middle.

At this time, a plurality of the insulating material 100 is attached to the outer wall of the building as if stacked in the form of bricks.

In the step of applying the intermediate mortar (S500), the intermediate mortar is applied to the surface of the insulating material according to the protruding height of the intermediate bridge 130.

Here, the intermediate bridge 130 cuts the remaining portion of the surface of the insulating material 100 using an electric hot wire cutter as shown in FIG. 3, and is cut vertically on one side and inclined on the other side so as to be advantageous for uniformity and smoothing of the mortar. .

At this time, the lower ends of both sides are cut deeper than the surface to facilitate the later hot wire cutting of the intermediate bridge 130 .

And, in the step of applying the intermediate mortar (S500), it is preferable to apply while pushing the finishing mortar from the bottom to the top using a plastering rod when applying the intermediate mortar, and the plastering rod has a long cross-section in the shape of an h. It is more preferable to use a yardstick.

Between the step of attaching the heat insulating material (S100) and the step of applying the intermediate mortar of the thick coating film (S500), the step of attaching the joint fiber mesh (S200) and the step of applying the joint fiber mesh fixing mortar (S300) are configured .

Specifically, the step of attaching the insulating material (S100) is to attach the insulating material 100 to the outer wall of the building (W). Apply in two or more places.

In areas where cracks are expected due to impact and load transfer processes, such as around windows and doors, the insulation 100 is cut in an L-shape and attached as a whole to each corner of the window. In this case, the adhesive mortar 110 is applied as a whole to the same thickness along the cut portion.

After tapping evenly to spread the adhesive mortar on the wall, press firmly, and when attaching the insulation 100, the order is from the bottom to the top, the long side horizontally, the end to the center, and the insulation plates are not connected vertically. make sure not to At this time, after attaching, the surface of the insulation material with severe irregularities is smoothed with sandpaper.

The joint square corner joint formed when the insulating material 100 is attached must be fixed with a fastener 120 , and it is also fixed with a fastener at the center of the insulating material 100 .

The step of attaching the joint fiber mesh (S200) and the step of applying the joint fiber mesh fixing mortar (S300) are respectively attaching the joint fiber mesh to the joint part of the insulating material, and applying the fixing mortar to the joint fiber mesh and the insulating material. will be.

Attach a joint fiber mesh 200 (m ² /150 g or more) with a width of about 10 to 15 cm on the joint with the fastener cap and apply it thinly with a fixing mortar 300, along with the entire surface of the insulation 100 and the intermediate bridge 130 ) to maintain the smoothness of the mortar, or to partially skim-coat the fixed mortar 300 to maintain the smoothness of the base surface and improve adhesion during flattening of the thick film to be described later. .

The step of applying the intermediate mortar (S600) is to apply the intermediate mortar 500 to the entire surface of the EPS board except for the vertical vertical molding part, and after 1 to 2 days after the end of the undercoat surface smoothness work, the ejection pressing equipment or multiple Apply the intermediate mortar (not shown in the drawing) using the plastering manpower of

At this time, when using the compression equipment, close the spray gun outlet and the wall surface not more than 30~40cm apart to strengthen the adhesion between the lower surface and the reinforcing fiber mesh 400. keep

It is easy for the operator to uniformly apply the thickness of the intermediate mortar by the intermediate bridge 130 , and the applied intermediate mortar can be solidified while maintaining its shape well due to the intermediate bridge 130 .

At this time, when applying the intermediate mortar, it is preferable that the worker smooth the finishing mortar from the bottom up using a long h-shaped scale for plastering.

In the step of cutting the intermediate bridge ( S600 ), the intermediate bridge 500 of the insulating material is cut using an electric cutter.

In the step of applying the additional intermediate mortar (S700), an additional finishing mortar is applied and filled in the space where the intermediate bridge 500 of the insulating material is cut.

The step (S700) is to apply an additional intermediate mortar to the space where the intermediate bridge 130 is cut, and as in the step (S500) of applying the intermediate mortar, the intermediate mortar 500 is used by using a discharge pressing device or a plasterer. ) is filled more carefully with the thickness of the cut middle bridge 130 to increase the smoothness of the base surface as much as possible.

In the step of applying the final finishing mortar (S900), the final finishing mortar is applied on the thick film flat mortar and smoothed and flattened.

Between the step of applying the thick film flat mortar (S700) and the step of applying the final finishing mortar (S900), a final special mesh is attached and skim coating is performed to construct and confirm the flat work of the wall once again (S800) ) is formed.

As described above, the present invention enables uniform construction of 5 to 15 mm or more at a time by using the intermediate bridge 130 that has been planned and protruded to the insulating material 100 when applying the finishing mortar, and the finishing material even when viewed from backlight after finishing work (100) The value of the high-quality finishing material selected can be further increased because the board mounting marks on the underside or the unevenness of the unpainted surface are almost invisible.

And, it can be said that it is an eco-friendly insulation construction method that has excellent functionality, shortens the construction period, and can diversify the selection of finishing materials by completing the plastering, waterproofing, and non-combustible functions with just one construction. And if the site conditions make it unreasonable to use the intermediate bridge, an EVA board with a medium bridge thickness can be used instead of the intermediate bridge.

That is, according to the present invention, it is possible to perform a plastering work in which the smoothness is completed in a short time on a large and wide vertical wall, and there is no need for a separate waterproofing construction while forming the smoothness of the wall at a low cost.

In addition, it is easy to express the individuality of the building through various types of cheap and elegant finishing works suitable for the site conditions, shortening the construction period, saving energy, increasing the flame retardant performance, maintaining the clean smoothness of the exterior wall surface, and Since the window lines maintain the angle, the value of the building can be increased.

As described above, the preferred embodiments according to the present invention have been reviewed, and the fact that the present invention can be embodied in other specific forms without departing from the spirit or scope of the present invention in addition to the above-described embodiments is common knowledge in the art. It is self-evident to those who have it.

Therefore, the above-described embodiments are to be regarded as illustrative rather than restrictive, and accordingly, the present invention is not limited to the above description but may be modified within the scope of the appended claims and their equivalents.

100...Insulation material 110...Adhesive mortar
120...fastener 130...middle bridge
200...joint fiber mesh
300...Fixed mortar 400...Reinforced fiber mesh
500...Finishing mortar W...Exterior wall

Claims (2)

attaching the insulating material with the remaining surface cut to the outer wall of the building so that the intermediate bridge protrudes vertically in the vertical direction in the middle;
applying an intermediate mortar to the surface of the insulating material according to the protruding height of the intermediate bridge;
cutting the intermediate bridge of the insulating material;
applying an additional intermediate mortar to the space in which the intermediate bridge of the insulating material is cut; and
It is configured including the step of applying a final finishing mortar on the intermediate mortar,
The middle bridge is cut vertically on one side and obliquely on the other side, but the lower ends of both sides are cut deeper than the surface. A method of flattening the external insulation thick film of the wall. delete

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