KR100928722B1 - Building Insulation Construction Method - Google Patents

Abstract

Disclosed is a method for external insulation construction that can improve impact resistance on a part of an outer wall which is susceptible to impact, such as a window frame railing of a building, a rooftop railing, or a corner portion where a wall surface meets a wall. The disclosed construction method includes the steps of aligning and fixing a base plate and a fixing member having a bent portion protruded from the end of the base plate on the building exterior wall; Fixing the thermal insulation panel to the fixing member by driving the thermal insulation panel adjacent to an edge of the tooth of the fixing member; A first insertion space is formed at the lower side and a second insertion space is formed at the upper right side to insert the insulation panel into the first insertion space of the corner reinforcement member for reinforcing the corner portion of the building outer wall, thereby fixing the insulation panel and the corner reinforcement member to each other. Making a step; Fixing the reinforcement board and the corner reinforcement member to each other by inserting a reinforcement board or an insulation panel into the second insertion space of the corner reinforcement member; Applying mortar to the outer surfaces of the insulation panel and the reinforcing board, attaching a glass fiber mesh, and then applying mortar to the outer surface of the glass fiber mesh to form a reinforcing layer; It characterized in that it comprises a step of forming a finish layer on the outer surface of the reinforcing layer.

Description

CURRYING OUT METHOD OF OUTER WALL INSULATION}

The present invention relates to a building external insulation construction method, and more specifically, it can improve the impact resistance against the corner portion of the building exterior wall vulnerable to impact, such as the window frame railing, rooftop railing of the building or the corner portion of the wall and the wall meets. The building exterior insulation construction method.

In general, in order to improve the insulation of the outer wall of the building, the EPS is constructed with excellent insulation on the outer wall of the building, and then the outer surface of the EPS is finished with plastering. However, in the case of such a building exterior wall, the part where the corner part is formed on the exterior wall of the building, such as a window frame railing, a rooftop railing, or a part where the wall meets the wall, is shocked from the outside or installs a rope to install the rope for cleaning the building exterior wall. In case of burning, the external EPS is deformed due to impact or load, and the outer wall finish is damaged due to deformation, which results in poor appearance and residual repair work.

The present invention has been made to solve the above problems, the object is to improve the impact resistance for the corner of the outer wall of the building susceptible to impact, such as the window frame railing, rooftop railing of the building, or the corner portion of the wall and the wall meets. To provide thermal insulation construction methods.

The object of the present invention comprises the steps of aligning and fixing the base member and the fixing member is bent and protruded teeth formed at the end of the base plate in the end of the base plate on the outer wall of the building; Fixing the thermal insulation panel to the fixing member by driving the thermal insulation panel adjacent to an edge of the tooth of the fixing member; A first insertion space is formed at the lower side and a second insertion space is formed at the upper right side to insert the insulation panel into the first insertion space of the corner reinforcement member for reinforcing the corner portion of the building exterior wall to fix the insulation panel and the corner reinforcement member to each other. Making a step; Fixing the reinforcement board and the corner reinforcement member to each other by inserting a reinforcement board or an insulation panel into the second insertion space of the corner reinforcement member; Applying mortar to the outer surfaces of the insulation panel and the reinforcing board, attaching a glass fiber mesh, and then applying mortar to the outer surface of the glass fiber mesh to form a reinforcing layer; It can be achieved by providing a building exterior insulation construction method characterized in that it comprises a step of forming a finishing layer on the outer surface of the reinforcing layer.

Here, the corner reinforcing member and the support plate disposed in the horizontal direction; Left and right downward protrusions extending downward from both ends of the support plate to form a first insertion space; It is preferably configured to include a bending protrusion extending upward to the right side of the support plate and then bent to the left to form a second insertion space and reinforcing the corner portion of the railing at the bending portion.

Building insulation insulation method according to the present invention has the effect that the impact resistance can be improved for the corner portion of the outer wall vulnerable to impact, such as the window frame railing, the roof railing of the building or the corner portion of the wall and the wall meets.

Hereinafter, with reference to the accompanying drawings will be described in detail the building exterior insulation construction method according to the present invention.

1 is a perspective view of a preferred example of a fixing member used in the building exterior insulation construction method according to the invention, Figure 2 is a cross-sectional view of the fixing member according to Figure 1 fixed to the building outer wall, Figure 3 is fixed Figure 4 is a cross-sectional view of a state in which the insulation panel is fixed to the member, Figure 4 is a perspective view of a preferred example of the corner reinforcing member used in the building insulation insulation method according to the invention, Figure 5 is a state in which the corner reinforcing member according to Figure 4 is installed 6 is a cross-sectional view of the reinforcing board is installed in the corner portion of the steel member, Figures 7 to 9 is a cross-sectional view of the building exterior wall constructed in accordance with the present invention.

Referring to the drawings, the building exterior insulation construction method according to the present invention is a method that is constructed in the corner portion of the building outer wall (W) vulnerable to impact, such as a window frame railing, a roof railing of the building or a portion where the building wall and the wall meets, First, the step of aligning and fixing the fixing member 110 to the building outer wall.

The fixing member 110 is preferably composed of a toothed portion 112 is projected to be bent at the end of the base plate 111 and the base plate 111 as shown in FIG. As shown in the base plate 111 is fixed to the outer wall of the building through a fastener or the like to the outer wall (W) so that the tooth portion 112 is directed to the outside. Here, it is preferable to arrange the surface of the outer wall of the building, then display horizontal lines and vertical lines to fix the fixing member at the intersection of the lines.

When the fixing member 110 is fixed to the building outer wall (W) as described above, as shown in FIG. 3, the insulating panel 120 is driven adjacent to the edge of the tooth part 112 to fix the insulating panel 120 to the fixing member. It is fixed to (110). The insulation panel 12 may use a single EPS board (Expanded Polystyren), which is called styrofoam, but preferably, the first EPS board 121, the second EPS board 122, and the first EPS board ( 121) and a glass fiber mesh 123 inserted between the second EPS boards 122. The glass fiber mesh 123 may be inserted between the first EPS board 121 and the second EPS board 122 through an adhesive, and the glass fiber mesh 123 may be inserted into the first EPS board 121 and the second EPS board. By firmly supporting the 122 to prevent deformation such as bending to the side even over time to improve the structural performance, such as durability of the panel.

Here, as shown, it is preferable that the toothed portion 112 of the fixing member is constructed so that it passes through the glass fiber mesh 122 to the middle of the second EPS board 123, which is the toothing portion 122 of the fixing member. This is to not only to be embedded in the panel 120 to improve the fastening force, but also to ensure that the toothed portion of the fastening member is firmly fixed by the inserted glass fiber mesh 122 in particular.

Although not shown, the epoxy resin is applied to the insulation panel 120 before the insulation panel 120 is driven into the base plate and the tooth portion of the fixing member, and then the insulation panel is fixed to the insulation member by fixing the insulation panel to the fixing member. It is desirable for the members to be firmly bonded to each other. In addition, when a gap is formed between the building exterior wall and the insulation panel due to the uneven surface of the building, it is preferable to fill the gap by inserting a piece of insulation panel into the gap.

After fixing the heat insulation panel 120 to the fixing member 110 as described above, a first insertion space is formed at the lower side and a second insertion space is formed at the upper right side to reinforce the corner portion of the building 130. By inserting the heat insulation panel 120 into the first insertion space of the) it is fixed to the heat insulation panel 120 and the corner reinforcing member 130.

Here, the corner reinforcing member 130 is an exemplary but preferably comprises a support plate 131, downward projections (132, 133) and bending projections 134 as shown in FIG. In addition, the corner reinforcing member 130 is preferably made of aluminum so as to improve the impact resistance.

Here, the support plate 131 is formed horizontally so that the upper surface of the above-described heat insulation panel 120 and the bottom surface of the reinforcement board to be described later in close contact, the downward projections (132, 133) are lower from both ends of the support plate of the support plate The left downward protrusion 132 and the right downward protrusion 133 are formed to extend. Accordingly, a first insertion space 135 is formed below the corner reinforcing member 130 by the left downward protrusion 132 and the right downward protrusion 133, and the first insertion space 135 is illustrated in FIG. 5. As shown in the insulating panel 120 is inserted.

In addition, the right side of the support plate 131 is formed with a bending protrusion 134 extending upward and bent to the left side of the support plate 131 is formed on the upper right side of the corner reinforcing member 130 by the bending protrusion 134 ( 136 is formed. Reinforcement board 140 to be described later is inserted into the second insertion space 136, and the bent portion of the bending protrusion 134 is an inner portion corresponding to the corner portion of the outer wall of the building, The reinforcing board 140 disposed inwardly serves to protect from external impact or load.

Here, the left downward protrusion 131 is preferably bent to be inclined toward the first insertion space 135, which is the side downward projection of the side of the insulation panel 120 inserted into the first insertion space 135 ( This is to prevent the corner reinforcing member 130 is easily detached from the heat insulation panel during construction by elastically pressing the 135.

After inserting and fixing the corner reinforcement member 130 to the heat insulation panel 120 as described above, as shown in FIG. 6, the reinforcement board 140 is inserted into the second insertion space 136 of the corner reinforcement member to reinforce the reinforcement. The board 140 and the corner reinforcing member 130 are horizontally fixed to each other. Here, the reinforcement board 140 is preferably a cement board or the like, but may be a magnesium board or a gypsum board.

After inserting and fixing the reinforcement board into the second insertion space of the corner reinforcing member as described above, the reinforcement layer 150 and the finish on the outer surface of the insulation panel 120 and the reinforcement board 140 as shown in FIGS. Form layer 160.

The reinforcement layer 150 is formed by applying a mortar to the outer surface of the heat insulation panel 120 and the reinforcement board 140, then attaching the glass fiber mesh for reinforcement and then applying the mortar to the outer surface of the glass fiber mesh.

In addition, when the reinforcing layer 150 is formed as described above, the finishing layer 160 is formed on the outer surface of the reinforcing layer 150. The finishing layer 160 may be constructed in various ways, but preferably, the cup having various colors. Natural stone powders such as natural silica, natural dolomite, natural calcite and granite of particle size are mixed and formed in a mixed material such as acrylic emulsion resin or urethane resin, and then cured or sprayed on the outer surface of the reinforcing layer to be cured for a predetermined time.

7 and 8 show the construction state of the roof railing, and FIG. 8 illustrates the construction state of the window ledge railing.

Referring to the drawings, the corner portion of the roof railing or window frame railing constructed in accordance with the present invention because the corner reinforcing member 130 is built in the inner side to receive an impact from the outside or install the rope for cleaning the building exterior wall Even if it is burned, the corner reinforcing member 130 reinforces the corner portion of the building exterior wall, so that the exterior wall is not damaged. In addition, in particular, when the window frame 170 is installed in the window frame rail as shown in Figure 8, the internal reinforcement board 140 supports the load of the window frame as well as a solid building exterior insulation construction as well as reinforcement board 140 There is an advantage that leakage can be prevented by

On the other hand, Figure 9 is a planar cross-sectional view of the corner portion where the wall surface and the wall surface of the building outer wall constructed in accordance with the present invention and Figure 10 shows a corner reinforcing member applied to the Figure 9. Referring to this, in the corner portion where the wall meets the wall surface, as in the previous embodiment, the insulation panels are disposed on both side walls without using the reinforcement board. Accordingly, as shown in FIG. 10, the width of the bending protrusions is increased to correspond to the width of the insulating panel so that the heat insulating panel can be inserted into the second insertion space of the corner reinforcing member, and the end of the bending protrusion is formed long.

Therefore, the first reinforcement layer is inserted into the first insertion space of the corner reinforcing member 130 and the insulation panel 120 for externally insulating one side wall surface is inserted into the second insertion space for the wall finish instead of the reinforcement board on the other side wall surface. The construction is completed by sequentially forming the plaster layer.

1 is a perspective view of a preferred example of the fixing member used in the building insulation insulation method according to the invention,

Figure 2 is a side cross-sectional view of the fixing member according to Figure 1 fixed to the building exterior wall,

Figure 3 is a side cross-sectional view of the insulation panel is fixed to the fixing member,

Figure 4 is a perspective view of a preferred example of the corner reinforcing member used in the building insulation insulation method according to the invention,

5 is a side cross-sectional view of the corner reinforcing member is installed according to Figure 4,

Figure 6 is a side cross-sectional view of the reinforcement board is installed in the corner steel member,

7 and 8 are side cross-sectional views of the roof walls and window frame railing outer wall constructed in accordance with the present invention,

Figure 9 is a plan sectional view of the corner portion of the wall and the wall surface of the building exterior wall constructed in accordance with the present invention.

Claims (5)

delete delete Arranging and fixing a base plate and a fixing member having a bent portion protruded from the end of the base plate on the outer wall of the building; Fixing the thermal insulation panel to the fixing member by driving the thermal insulation panel adjacent to an edge of the tooth of the fixing member; A support plate arranged in a horizontal direction; Left and right downward protrusions extending downward from both ends of the support plate to form a first insertion space; A first insertion space of the corner reinforcing member, including; a bending protrusion which extends upwardly to the right side of the support plate and then bends to the left to form a second insertion space and at the same time reinforces a corner portion of the outer wall of the building. Inserting the insulation panel to fix the insulation panel and the corner reinforcing member to each other; Fixing the reinforcement board and the corner reinforcement member to each other by inserting a reinforcement board or an insulation panel into the second insertion space of the corner reinforcement member; Applying mortar to the outer surfaces of the insulation panel and the reinforcing board, attaching a glass fiber mesh, and then applying mortar to the outer surface of the glass fiber mesh to form a reinforcing layer; Comprising the step of forming a finishing layer on the outer surface of the reinforcing layer, The left downward projection is bent inclined toward the first insertion space side building construction method, characterized in that configured to press the side of the insulation panel inserted into the first insertion space. The method of claim 3, The insulation panel is composed of a first EPS board, a second EPS board and a glass fiber mesh inserted between the first EPS board, the second EPS board, so that the teeth of the fixing member is driven to the middle of the second EPS board through the glass fiber mesh. Building insulation method, characterized in that the construction. delete

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