KR100463433B1 - A finishing method for wall or corners of building construction - Google Patents

Abstract

The present invention relates to a method for constructing a corner reinforcement when building exterior insulation finishing;

As a method for constructing the corners of various angles caused by the connection of the wall surface during the external insulation finishing of the building,

Attaching the EPS board 52 as the adhesive mortar 51 along the outer wall surface of the edge portion C of the wall surface F;

Cutting the edge reinforcing material (R) to the length of the upright on the EPS board (2) to pre-attach to each corner portion (C) with adhesive mortar (110),

Process 120 of applying the adhesive mortar 53 between the adjacent space portion (B) of each corner reinforcing material (R) attached to each corner portion (C),

Wrapping the wall surface (F) and the edge (C) by using the adhesive mortar (53) applied between the edge reinforcement (R) while overlapping each of the corners (C) as a fiber razor mesh (54) 130,

And attaching a finishing material 55 on the fiber razor mesh 54 to finish the finishing process (140),

The edge reinforcing material (R) for the construction of the corner portion (C) is to be installed as a plate-shaped reinforcing member having a long elongated reinforcement plate (P) of plate-like form a bending groove (C) long along the longitudinal direction Characterized by;

Construction method of the reinforcement of the edge of the building exterior thermal insulation finish construction of the present invention; To provide a construction method of the edge reinforcement during the exterior insulation finishing of buildings having various advantages such as reducing the construction cost and the appearance of the construction surface is extremely beautiful.

Description

A finishing method for wall or corners of building construction

The present invention relates to a method of constructing a corner reinforcement during the external insulation finishing of buildings, and more particularly, to improve the workability and economic efficiency by improving the method of thermal insulation finishing of the corner portion connected to the wall surface caused to various buildings. It is for.

In various buildings, for example, group houses such as apartments, office buildings, and the like, a plurality of walls exist for a room or an office, and these walls form a number of corners while being interconnected.

The construction method of the corner portion of the building exterior thermal insulation finishing that has been widely used in the conventional conventional has been a very cumbersome work and had a lot of problems, but it is a reality that is constructed in the same way as in the prior art.

The construction method and the problems with the corner portion at the time of the conventional building exterior thermal insulation finish construction will be described sequentially with Figs.

1 is a cross-sectional view of a wall edge showing a construction method of the corner portion in the conventional building exterior insulation finishing construction, Figure 2 is a cross-sectional view for explaining the first aspect showing the problem according to the conventional construction method, Figure 3 is another 4 is a cross-sectional view for explaining the second aspect showing the problem, and FIG. 4 is a perspective view of the wall edge portion showing the problem.

Conventionally, the method for building exterior insulation finishing construction at the corner portion (C) of the wall surface (F) consisting of concrete pouring, etc .;

On an EPS board (2: Expanded Polysthyrene Board) attached as an adhesive mortar (1) along the outer wall surface of the corner (C) outside the wall surface (F),

In order to compensate for thermal expansion and reinforce the strength, the adhesive mortar (3) is applied again and the fiberglass mesh (4), which is a fiberglass net mesh, is attached thereon, and then the final finishing material (6) is attached again as the adhesive mortar (5). To end.

The problem of the construction method of the corner portion at the time of the conventional building exterior thermal insulation finish is due to the surface elastic strength of the fiber laser mesh (4), which is the essential member.

The fiber razor mesh 4 is composed of woven long fibers of glass fiber as a finishing material and thus has a considerable degree of surface elasticity over the surface area. In other words, when bent, it will have elasticity to restore.

Therefore, it is extremely difficult for the worker to deploy the fiberglass mesh 4 having such elasticity and attach it while overlapping along the edge portion C at the construction site, and the construction time is greatly increased by requiring much skill of the work. do.

Moreover, it becomes one of the factors which the operator avoids the construction, and it causes the construction cost to rise rapidly.

The larger problem is that due to its elasticity of the fiber laser mesh (4) is detached from the adhesive mortar, which is a gel state before drying and completely attached after construction, the adhesive surface is excited,

As shown in FIG. 2, the void portion V is generated, or as shown in FIG. 3, an extremely wavy shape is formed, such that the curvature of the corner portion is increased so that the appearance is not beautiful. There is a tendency to expand further.

This problem occurs especially when the construction machine is a summer season, when the drying of the adhesive mortar is delayed due to the high temperature of the outside air.

This problem also has a problem that when the construction of the wall and the window, such as the opening can be attached to the fiber razor mesh short short cantilever shape, so that the lifting at the end is larger, which is also due to the plaque of the fiber laser mesh It is a problem.

Therefore, as well as construction difficulties, as in Figure 4,

As the curvature part R is induced, it is a factor of enormous expense increase in construction and consumer dissatisfaction, such as buying dissatisfaction or even re-installation as a matter of aesthetics.

The construction method of the edge reinforcement during the external insulation finishing of the building of the present invention was devised in view of the problems of the conventional construction method, it is easy to unskilled people and the purpose of providing a beautiful construction method It is done.

Another main purpose of the construction method of the edge reinforcement during the external insulation finishing of the building of the present invention is to significantly reduce the construction cost by shortening the construction time and increasing the working speed of the finishing treatment.

1 is a cross-sectional view showing the construction method of the edge reinforcement when the building exterior insulation finishing construction of the present invention showing the construction method of the corner portion of the conventional building exterior insulation finishing construction.

FIG. 2 is a cross sectional view for explaining a first aspect showing a problem according to the conventional construction method of FIG. 1; FIG.

3 is a cross-sectional view for explaining a second aspect showing still another problem according to the conventional construction method of FIG.

4 is a perspective view of a completed wall edge showing a problem according to the conventional construction method of FIG.

Figure 5 is a cross-sectional configuration of the completed corners illustrating the construction method of the edge reinforcement when the building exterior insulation finishing construction of the present invention,

Figure 6 is an exemplary configuration of the edge reinforcing material used in the construction method of the edge reinforcement when the building exterior insulation finishing construction of the present invention.

7 A, B, C, D or various modified perspective views of FIG.

Figure 8 is a flow chart showing the work flow of the construction method of the edge reinforcing material at the time of building exterior insulation finishing construction of the present invention.

9 is an explanatory view illustrating the conventional construction method together with the conventional construction method in order to explain the operation of the construction method of the edge reinforcement when the building exterior insulation finishing construction of the present invention.

10 is a schematic explanatory diagram illustrating the operation of the construction method of the edge reinforcement during the building exterior insulation finishing construction of the present invention.

Explanation of symbols on the main parts of the drawings

F: wall surface

C: corner

R: corner reinforcement

P: Reinforcement Plate

In order to achieve the above object, the construction method of the edge reinforcing material at the time of building exterior insulation finishing of the present invention;

As a method for constructing the corners of various angles caused by the connection of the wall surface during the external insulation finishing of the building,

Attaching the EPS board as an adhesive mortar along the outer wall surface of the corner portion of the wall surface;

Cutting the edge reinforcement material to an upright length on the EPS board and pre-attaching it with adhesive mortar on each corner;

Applying an adhesive mortar between adjacent space portions of each corner reinforcing material attached to each corner portion,

Wrapping the wall surface) and the edges by using the coated adhesive mortar between the edge reinforcements while overlapping each of the corner portions as a fiber razor mesh,

It characterized in that it comprises a step of attaching the finish again on the fiber razor mesh.

One of the more important construction methods of the invention is;

The edge reinforcing material for the construction of the corner portion is characterized in that the elongated reinforcement plate of the long plate-shaped reinforcement plate is formed as a plate-shaped reinforcement member formed long bending groove along the longitudinal direction,

Bonding of the fiber razor mesh is performed by the applied adhesive mortar of the adjacent space between the corner reinforcement,

The fiber razor mesh is to be attached overlapping without the application of a separate adhesive mortar,

The thickness of the corner reinforcement is less than or equal to the thickness of the fiber razor mesh construction is also an essential method component.

With reference to the accompanying drawings, the construction method of the edge reinforcement during the building exterior thermal insulation construction of the present invention will be described in more detail.

Figure 5 is a cross-sectional configuration of the corner portion explaining the construction method of the edge reinforcement when the building exterior insulation finish construction of the present invention, Figure 6 is a corner reinforcement used in the construction method of the edge reinforcement when the building exterior insulation finish construction of the present invention Figure 7 A, B, C, D or a variety of modified perspective views of Figure 6, Figure 8 is a flow chart showing the workflow of the construction method of the edge reinforcement during the building exterior thermal insulation construction of the present invention 9 is an explanatory view for explaining the operation of the construction method of the present invention together with the conventional construction method, Figure 10 is a schematic explanatory diagram for explaining the operation of the present invention.

As shown in FIG. 5 as a cross sectional view,

In the construction method of the edge reinforcing material at the time of external insulation finishing of the building of the present invention, the main construction method is to use the edge reinforcing material (R) as a basic auxiliary member in the construction of the corner portion (C).

This corner reinforcement (R) is shown in Figures 6 to 7,

The elongated reinforcement plate P of the long plate-like shape which is a plate is comprised in various kinds, and has the bending groove C long along the longitudinal direction.

As shown in an enlarged view, the bending groove C is machined to have a bending obtuse angle A so that the bending groove C can be bent at an arbitrary angle according to the edge portion C of the construction target.

In addition, the plate thickness of the edge reinforcing material (R) is preferably about 0.2-2 mm, and the reason is described below.

The edge reinforcing material (R) may be manufactured in various configurations, preferably as shown in Figs. 7A and 7B, the adhesive protrusions 10 or the roughness of various shapes for increasing the adhesiveness to the adhesive surface thereof are processed extremely high. It is preferable to form the formed funnel surface 11 or the like for adhesion.

The edge reinforcing material (R) may be a bending body for folding and processing a molded or plate-shaped member of a synthetic resin capable of various kinds of injection, extrusion, drawing, and bent and cut the FRP material into a plate.

As shown in Fig. 7C, D, by impregnating and drying the resin sheet 21, such as epoxy, on the agent sheet 20, such as non-woven fabrics, net mesh, etc. to form a plate-like member,

The agent sheet 20, such as a nonwoven fabric and a net mesh body, etc. can be comprised with various materials, such as the thing impregnated with the glue and animal gelatin, and dried.

Alternatively, a non-ferrous metal iron plate such as iron plate or aluminum, a metal plate material having corrosion resistance, or the like may be used, or may be used after being cut and bonded after bonding fibers or meshes such as glass fibers to it.

5 and 8 will be described with reference to FIGS. 5 and 8 to construct a corner portion at the time of external insulation finishing construction of the building using the edge reinforcing material (R) of the component of the above configuration.

The EPS board 52 is attached as the adhesive mortar 51 along the outer wall surface of the edge portion C constituting the wall surface F (100).

The edge reinforcing material (R), which is a constituent member of the present invention, is cut to an upright length on the EPS board 52, and is preliminarily attached to each corner portion C with adhesive mortar (110).

An adhesive mortar 53 is applied between adjacent space portions B of each corner reinforcing material R attached to each corner portion C (120).

The wall surface (F) and the edge (C) are wrapped using the coated mortar (53) between the edge reinforcements (R) while overlapping each of the edges (C) as a fiber razor mesh (54). Exit 130.

The finishing process is attached to the finish 55 again on the fiber razor mesh (54) (140). Alternatively, the fiber razor mesh 4 may be constructed at both ends of the corner portion and the corner reinforcing material R may be attached thereto.

By applying as described above, it is actually attached by the coated adhesive mortar 53 of the adjacent space portion B between the respective corner stiffeners R without the application of a separate adhesive mortar for attaching the fiber razor mesh 4. Let this be done.

This is a very important factor, and the thickness of the edge reinforcing material (R) in the above will be described together with about 0.2-2 mm.

The plate thickness of the edge reinforcement (R) 0.2-2 mm is almost equal to or slightly equal to the thickness of the fiber razor mesh (54) to be actually attached, so the fiber razor mesh ( 54) is embedded and thus the construction surface is kept flat.

At the same time, since the adhesive fixing point of the fiber razor mesh 54 is formed at both ends, the fiber razor mesh 54 is in a state in which both ends of the fiber razor mesh 54 are bent (bending and elastic).

Therefore, the elastic deformation of the fiber razor mesh 54 is minimized, and the construction surface also forms a planar appearance in appearance.

To explain this in more detail, as in the upper peninsular view showing the conventional configuration of FIG. 9, when the fiber razor mesh 4 is adhesively attached over the entire area, the detachment force at the corner portion C having the largest elastic repulsive force (F) becomes the largest and will have the same problem as the prior art.

However, in the construction method of the present invention, as in the lower semi-circular diagram of FIG. 9, the edge portion (C) having the greatest elastic repulsion force is fixed at both ends while leaving the elastic force as it is. Deviation does not occur over time.

As in FIG. 10, which shows this extremely exaggerated,

Since the fiber razor mesh 54 is a plate member fixed at both ends P1 and P2, the deformation is already fixed in the state in which the deformation is maximized.

Of course, both ends (P1.P2) is a fixed point by the applied adhesive mortar 53 of the adjacent space portion (B) between the edge reinforcing material (R).

Alternatively, the fiber razor mesh 4 may be constructed only in the adjacent space portion B between the edge reinforcing members R, and the thickness of the edge reinforcing members R may also be very similar.

The construction method of the edge reinforcement in the building exterior thermal insulation finish construction of the present invention as described above does not require the application of a separate adhesive mortar to the attachment of the fiber laser mesh, and the attachment state of the fiber laser mesh in the initial construction state over time The absence of deformation provides a beautiful construction appearance.

In addition, it is extremely easy for the operator to perform the work while overlapping the fiber razor mesh has an effect that the workability and the resulting economic efficiency is extremely increased.

Construction method of the reinforcement of the edge of the building exterior insulation finishing construction of the present invention as described above; To provide a construction method of the edge reinforcement during the exterior insulation finishing of buildings having various advantages such as reducing the construction cost and the appearance of the construction surface is extremely beautiful.

Claims (6)

As a method for constructing the corners of various angles caused by the connection of the wall surface during the external insulation finishing of the building, Attaching the EPS board 52 as the adhesive mortar 51 along the outer wall surface of the edge portion C of the wall surface F; Cutting the edge reinforcing material (R) to the length of the upright on the EPS board (2) to pre-attach to each corner portion (C) with adhesive mortar (110), Process 120 of applying the adhesive mortar 53 between the adjacent space portion (B) of each corner reinforcing material (R) attached to each corner portion (C), Wrapping the wall surface (F) and the edge (C) by using the adhesive mortar (53) applied between the edge reinforcement (R) while overlapping each of the corners (C) as a fiber razor mesh (54) 130, Construction method of the edge reinforcement during the building exterior thermal insulation finishing, characterized in that it comprises a step (140) for attaching the finishing material 55 again on the fiber razor mesh (54). The method according to claim 1, wherein the corner reinforcing material (R) is overlapped with each corner (C) after overlapping the fiberglass mesh 54 along each corner (C) on the EPS board (2). Construction method of the corner reinforcement, characterized in that it can be attached. According to claim 1, wherein the corner reinforcing material (R) for the construction of the corner portion (C) is a plate-like elongated reinforcement plate (P) of long elongated plate-like plate-like groove formed in the longitudinal direction along the longitudinal direction Construction method of the edge reinforcement during the exterior insulation finishing of the building, characterized in that the construction as a reinforcing member. The method of claim 1, The adhesive construction of the fiber razor mesh 54 is a corner reinforcement during the building exterior thermal insulation finishing, characterized in that the adhesion is performed by the adhesive mortar 53 of the adjacent space (B) between the corner reinforcement (R). Construction method. The method of claim 1, wherein the fiber razor mesh (54) is overlapping and attached without the application of a separate adhesive mortar. According to any one of claims 1 to 5, wherein the thickness of the edge reinforcing material (R) is less than or equal to the thickness of the fiber razor mesh 54 during construction of the building exterior insulation finishing Construction method of edge reinforcement.