KR101421883B1 - the construction method of outside insulation with mineral insulating board - Google Patents

Abstract

A construction method of an outside insulation using a mineral insulation board according to the present invention includes: an outer wall arrangement process (S1); a bracket and lowermost reinforcement mesh installation process (S2); a mineral insulation board installation repetition process (S3); a sides and uppermost reinforcement installation process (S4); a frontal reinforcement mesh installation process (S5); a decorative process (S6); and a finishing process (S7). By the reinforcement meshes, the mineral insulation board is integrated and prevented from separation, detachment and scattering while also becoming fireproof. By a middle reinforcement mesh, the frontal reinforcement mesh can be prevented from becoming buoyant after construction. Moreover, the insulation board has strong attachment, and is highly water-resistant and water-proof.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002]

The present invention relates to an external heat insulating method using an inorganic insulating plate, which is provided with an inorganic insulating board containing a rock surface plate, glass wool or other inorganic material, an elbow bracket having an L-shaped cross section, (S1) an outer wall cleaning step (S1) of arranging a surface of an outer wall to be adhered by a reinforcing mesh composed of a reinforcement mesh, an uppermost reinforcement mesh, and a front reinforcement mesh; (S2) a plurality of brackets horizontally installed along the lower portion of the outer wall to be installed, a bracket for installing the lowermost reinforcing mesh on the bracket provided on the front side of the outer wall along the longitudinal direction of the ground, and a lowermost reinforcing mesh; An inorganic insulating plate mounting step (S3) of installing an inorganic insulating plate on the outer wall by repeating the process of installing an inorganic insulating plate with the bracket installed previously and mounting the bracket along the upper surface of the inorganic insulating plate; (S4) a side reinforcing mesh installation step (S4) for installing uppermost reinforcing meshes along the left and right direction of the uppermost surface of the inorganic heat insulating plate provided on the outer wall, respectively, along the upper and lower sides of the uppermost and lower surfaces of the inorganic insulating plates provided on the outer walls; (S5) a front reinforcing mesh installation step in which the front reinforcing mesh is disposed on the front surface of the inorganic insulating plate installed on the outer wall and is adhered with mortar; (S6) in which the inorganic insulating sheet and the lowermost reinforcing mesh, the side reinforcing mesh, the uppermost reinforcing mesh, and the front reinforcing mesh surface are inset with the mortar, and the inorganic insulating plate is integrated by the reinforcing mesh to separate the inorganic insulating plate And to a method for constructing an external heat insulation that is safe from fire after construction.

In general, the inner and outer heat insulating materials for the structure (wall) are divided into an inner heat insulating material when the heat insulating material is located on the indoor side and an outer heat insulating material when the heat insulating material is located on the outdoor side. In the case of such outer heat insulating material, The method of installing the heat insulating material on the outer wall will be described as follows.

In the simplest case, a heat insulating material such as a foamed polystyrene panel may be attached to the outer wall using an adhesive (e.g., mortar, silicone, foamed polyurethane) ) Is inserted into the outer wall, and the insulation is fixed to the outer wall.

In addition, the foamed polystyrene panel is not used as a heat insulating material as it is. Instead, a sandwich panel integrally formed of steel or other nonflammable board (for example, an inorganic board such as a gypsum board or a cement board) Alternatively, a flame retarded expanded polystyrene panel having a flame retarded coating on expanded polystyrene particles was used as an insulation material while manufacturing an expanded polystyrene panel.

However, when a foamed polystyrene panel is used as a thermal insulation material of a building, a foamed polystyrene panel is light and the price is low, but a foamed polystyrene panel is used. When a fire is generated, Causing a bigger fire and generating toxic gas.

Further, when the sandwich panel is used as a heat insulating material, there is a problem that the foamed polystyrene melts or burns when exposed to a high temperature even if steel is present on both sides of the foamed polystyrene panel. In the case where the incombustible board is integrated on both surfaces of the expanded polystyrene panel , The price is high and it is difficult to install on the outer wall due to the weight of the nonflammable board.

In addition, the flame retardant treated flame retardant expanded polystyrene panel is expensive and the flame retardant foamed polystyrene panel is used as an insulation material to prevent the fire from spreading when a fire occurs, but the expanded polystyrene particles inside the flame retardant coating do not melt Therefore, there is a problem that after the fire, it is necessary to dismantle and re-insulate the insulation work.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide an inorganic insulating plate including a rock plate, glass wool or other inorganic material, (S1) of arranging a reinforcing mesh composed of a reinforcement mesh and a front reinforcement mesh, and arranging the surface of the outer wall to be subjected to the outer heat insulation by a usual method; (S2) a plurality of brackets horizontally installed along the lower portion of the outer wall to be installed, a bracket for installing the lowermost reinforcing mesh on the bracket provided on the front side of the outer wall along the longitudinal direction of the ground, and a lowermost reinforcing mesh; An inorganic insulating plate mounting step (S3) of installing an inorganic insulating plate on the outer wall by repeating the process of installing an inorganic insulating plate with the bracket installed previously and mounting the bracket along the upper surface of the inorganic insulating plate; (S4) a side reinforcing mesh installation step (S4) for installing uppermost reinforcing meshes along the left and right direction of the uppermost surface of the inorganic heat insulating plate provided on the outer wall, respectively, along the upper and lower sides of the uppermost and lower surfaces of the inorganic insulating plates provided on the outer walls; (S5) a front reinforcing mesh installation step in which the front reinforcing mesh is disposed on the front surface of the inorganic insulating plate installed on the outer wall and is adhered with mortar; (S6) in which the inorganic insulating sheet and the lowermost reinforcing mesh, the side reinforcing mesh, the uppermost reinforcing mesh, and the front reinforcing mesh are inset with the mortar, and the inorganic insulating plate is integrated by the reinforcing mesh, Prevent detachment, separation and scattering, and ensure safety after construction and fire.

In the step (S3) of installing the inorganic insulating plates, the lowermost reinforcing mesh is coated with mortar so as to adhere to the bottom surface and a part of the front surface of the inorganic heat insulating plate provided in the lowermost row, S3), an intermediate reinforcement mesh is positioned between the upper and lower inorganic insulating plates so as to protrude to the outside, and the projected reinforcing mesh crosses the upper and lower sides by the scissors, and is coated with mortar so as to be attached to the front surface of the upper and lower inorganic insulating plates, The connection and tightness of the upper and lower inorganic insulating plates to the mesh is increased and the mesh reinforcement prevents the front reinforcement mesh from being lifted after the installation.

The connection bracket further includes a plate-like support portion and a connection bracket integrally formed with a plurality of fitting portions vertically protruded upward or downward with respect to the support portion. When the elbow bracket is installed, So that the fitting portion of the connection bracket is inserted into the inorganic insulating plate to enhance the tightness between the inorganic insulating plates.

Further, in the thermal insulating panel and bracket installation repeating step (S4), the mortar is made of polymer-cement mortar to improve the water resistance and waterproofness.

 As described above, according to the present invention, there is provided an inorganic insulating plate including a rock surface plate, a glass wool or other inorganic material, and is provided with an El bracket having an L-shaped cross-section and includes a lowermost reinforcement mesh, a side reinforcement mesh, An outer wall cleaning step (S1) of arranging a surface of an outer wall to be subjected to external heat insulation by a conventional method; (S2) a plurality of brackets horizontally installed along the lower portion of the outer wall to be installed, a bracket for installing the lowermost reinforcing mesh on the bracket provided on the front side of the outer wall along the longitudinal direction of the ground, and a lowermost reinforcing mesh; An inorganic insulating plate mounting step (S3) of installing an inorganic insulating plate on the outer wall by repeating the process of installing an inorganic insulating plate with the bracket installed previously and mounting the bracket along the upper surface of the inorganic insulating plate; (S4) a side reinforcing mesh installation step (S4) for installing uppermost reinforcing meshes along the left and right direction of the uppermost surface of the inorganic heat insulating plate provided on the outer wall, respectively, along the upper and lower sides of the uppermost and lower surfaces of the inorganic insulating plates provided on the outer walls; (S5) a front reinforcing mesh installation step in which the front reinforcing mesh is disposed on the front surface of the inorganic insulating plate installed on the outer wall and is adhered with mortar; (S6) in which the inorganic insulating sheet and the lowermost reinforcing mesh, the side reinforcing mesh, the uppermost reinforcing mesh, and the front reinforcing mesh are inset with the mortar, and the inorganic insulating plate is integrated by the reinforcing mesh, It is effective to prevent separation and dislocation and scattering, and is safe after installation and fire.

In the step (S3) of installing the inorganic insulating plates, the lowermost reinforcing mesh is coated with mortar so as to adhere to the bottom surface and a part of the front surface of the inorganic heat insulating plate provided in the lowermost row, S3), an intermediate reinforcement mesh is positioned between the upper and lower inorganic insulating plates so as to protrude to the outside, and the projected reinforcing mesh crosses the upper and lower sides by the scissors, and is coated with mortar so as to be attached to the front surface of the upper and lower inorganic insulating plates, The connection and tightness of the upper and lower inorganic insulating plates are excellent in the mesh, and the effect of preventing the front reinforcing mesh from being lifted after the installation by the intermediate reinforcing mesh is effective.

The connection bracket further includes a plate-like support portion and a connection bracket integrally formed with a plurality of fitting portions vertically protruded upward or downward with respect to the support portion. When the elbow bracket is installed, So that the fitting portion of the connection bracket is sandwiched by the inorganic heat insulating plate and the tightness between the inorganic insulating plates is high.

Further, in the thermal insulating panel and bracket installing step (S4), the mortar is applied with polymer-cement mortar and has high water resistance and waterproofing effect.

1 is a perspective view showing a state in which a lowermost reinforcing mesh, a bracket, and an inorganic insulating plate are installed in a lower part of an outer wall according to a construction method of the present invention.
2 is a perspective view showing a state in which an intermediate reinforcement mesh is installed on an inorganic insulating plate provided on an outer wall according to the construction method of the present invention of Fig. 2; Fig.
3 is a perspective view showing a state in which an inorganic insulating plate is installed on an outer wall according to a construction method of the present invention.
4 is a perspective view showing a state in which a side reinforcing mesh and an uppermost reinforcing mesh are installed on an inorganic insulating plate of an outer wall according to a construction method of the present invention.
5 is a perspective view showing a state in which a front reinforcing mesh is installed on an inorganic insulating plate of an external wall according to a construction method of the present invention.
FIG. 6 is a perspective view showing a state in which a front reinforcement mesh is installed on an inorganic insulating plate of an outer wall according to a construction method of the present invention. FIG.
7 is a partial cross-sectional view of a construction method of the present invention.
8 is an enlarged cross-sectional view of part A of Fig.
9 is a view showing a construction process according to the present invention.

The present invention relates to an external heat insulating method using an inorganic insulating plate, which is provided with an inorganic insulating board containing a rock surface plate, glass wool or other inorganic material, an elbow bracket having an L-shaped cross section, (S1) an outer wall cleaning step (S1) of arranging a surface of an outer wall to be adhered by a reinforcing mesh composed of a reinforcement mesh, an uppermost reinforcement mesh, and a front reinforcement mesh; (S2) a plurality of brackets horizontally installed along the lower portion of the outer wall to be installed, a bracket for installing the lowermost reinforcing mesh on the bracket provided on the front side of the outer wall along the longitudinal direction of the ground, and a lowermost reinforcing mesh; An inorganic insulating plate mounting step (S3) of installing an inorganic insulating plate on the outer wall by repeating the process of installing an inorganic insulating plate with the bracket installed previously and mounting the bracket along the upper surface of the inorganic insulating plate; (S4) a side reinforcing mesh installation step (S4) for installing uppermost reinforcing meshes along the left and right direction of the uppermost surface of the inorganic heat insulating plate provided on the outer wall, respectively, along the upper and lower sides of the uppermost and lower surfaces of the inorganic insulating plates provided on the outer walls; (S5) a front reinforcing mesh installation step in which the front reinforcing mesh is disposed on the front surface of the inorganic insulating plate installed on the outer wall and is adhered with mortar; (S6) in which the inorganic insulating sheet and the lowermost reinforcing mesh, the side reinforcing mesh, the uppermost reinforcing mesh, and the front reinforcing mesh surface are inset with the mortar, and the inorganic insulating plate is integrated by the reinforcing mesh to separate the inorganic insulating plate And to a method for constructing an external heat insulation that is safe from fire after construction.

First, as shown in FIG. 1, the inorganic insulating plate 100 is made of an inorganic material, or an inorganic material is used as the inorganic insulating material. The inorganic material includes rock wool and glass wool. Representative examples of the rock wool board include a rectangular plate made of rock wool as a raw material, It is used as a heat insulating material, insulating material, interior material, etc. It is mainly used as a heat insulating material, a heat insulating material, an interior material and the like by forming a planar shape by adding a nonflammable adhesive after removing the impurities, Is separated into faces in the nature of the material, and the separated rock faces are scattered and scattered.

In addition, glass wool has a low melting point glass with a large amount of soda components, which is pulled out into a fiber shape and bonded with a binder to form an air layer between the fiber and the fiber, Glass wool is provided in the form of a roll, or glass wool which is cut in a square shape and kept in the form of a plate by the coating of the surface or a plate made of a nonflammable material (for example, a steel plate) on both sides of the glass wool It uses an integrated glass wool panel, which can be torn or scattered even if it is made from a binder. (Asbestos is harmful to human body, but glass wool is harmless to human body.)

The inorganic insulating plate 100 may be formed of a heat insulating material including a rock surface or a glass wool as described above or a rock surface plate or glass wool or other inorganic materials such as other inorganic materials and other inorganic materials, Thermal material can be applied.

As shown in FIG. 1, the elbow bracket 200 has a constant surface width, and has an L-shaped cross-sectional shape, as shown in FIG. 1. The elongated bracket 200, A metal member having a cross section is formed with a through hole passing through each surface. The through hole may be formed into a circular shape or a long hole.

2 and 5, the connection bracket 300 includes a support portion 310 having a predetermined area, a fitting portion 320 protruding vertically from the edge of the support portion 310, a support portion 310 The supporting part 310 is formed in the shape of a rectangular plate, and the support part 310 is provided with a through hole or a long hole (not shown) through which the supporting part 310 is inserted. And each of the fitting portions 320 and 330 becomes narrower toward the end to have a triangular structure or a sharp end.

1 and 3, the one-way connection bracket 300 'includes a support portion 310 having a predetermined area and a fitting portion 320 protruding vertically from the edge of the support portion 310, The supporting portion 310 may be formed in a rectangular plate shape and a through hole or a long hole may be formed in the supporting portion 310. The fitting portion 320 may be narrowed toward the end It has a triangular structure or a pointed end.

The reinforcing mesh is composed of a carbon fiber mesh, a glass fiber mesh, a metal mesh, etc. Depending on the position used, the lowermost reinforcement mesh 400, the intermediate reinforcement mesh 410, the side reinforcement mesh 420, 430 and the front reinforcement mesh 440. The lowermost reinforcement mesh 400, the intermediate reinforcement mesh 410, the side reinforcement mesh 420 and the uppermost reinforcement mesh 430 are larger than the width of the inorganic insulating plate 100 The middle reinforcement mesh 410 and the uppermost reinforcement mesh 430 are formed to have a length corresponding to the left and right lengths of the outer wall to be subjected to the outer heat insulation, and the side reinforcement mesh 420, The front reinforcement mesh 440 is configured to cover a width corresponding to the length of the outer wall formed by the outer insulation and the height of the outer wall of the front reinforcement mesh 440, The reinforcement mesh 400, the intermediate reinforcement mesh 410, It is preferable that the mesh 420 and the uppermost reinforcing mesh 430 use a bendable reinforcing mesh and the front reinforcing mesh 440 is excellent in strength even if it is difficult to bend.

An external heat insulating method using the inorganic insulating board 100, the bracket and the reinforcing mesh using the inorganic insulating board 100 will now be described with reference to the process chart of FIG.

First, the outer wall preparation step (S1) is a step of arranging the surface of the outer wall to be subjected to external heat insulation. In the case of the expanded and contracted structure, only the surface of the outer wall is cleanly cleaned. It is desirable to repair the burial, flatten the depressed area, and flatten the surface of the protruding part by grinding it with a grinder or the like.

1, the bracket and the lowermost reinforcement mesh installing step S2 are provided with a plurality of horizontally arranged brackets along the outer wall of the lowest portion of the ground, and the lowermost reinforcement mesh 400 is installed on the bracket A fixing member 700 (anchor bolt, screw, nail, screw, piece or the like) is fixed to the outer wall of the elbow bracket 200 by a process in which the elongated bracket 200 is placed in contact with the wall along the longitudinal direction of the paper, (Anchor bolts, screws, nails, screws, pieces, and the like) are fixed to the two surfaces of the elbow bracket 200 to fix the elongate bracket 200 to the floor and the outer wall, The connection bracket 300 or the one-way connection bracket 300 'is positioned so as to overlap the plurality of brackets 300. In this way, a plurality of brackets are installed along the bottom of the connection bracket 300 or the one- ) Projecting upward And to have a state.

If the bottom of the installation paper is the bottom in the bracket installing step S2, the connection bracket 300 or the one-way connection bracket 300 'is first installed while the inorganic insulating plate 100 is installed, The fixing members 700 and 710 may be fixed to the floor and the outer wall through the elbow bracket 200. When the connecting bracket 300 is used, It is preferable that the fitting portion 330 is not protruded downward by using the unidirectional connecting bracket 300 'rather than the connecting bracket 300 when the outer heat insulating material is installed on the floor.

When the lowest portion of the ground is the bottom, the lowermost reinforcement mesh 400 is placed on the bracket so that the lowermost reinforcement mesh 400 does not touch the outer wall of the bracket. And the lowermost reinforcement mesh 400 is placed on the bracket so that the lowermost reinforcement mesh 400 is positioned along the outer wall of the bracket. When the inorganic insulating plate 100 is installed on the lowermost reinforcement mesh 400 later, the lowermost reinforcement mesh 400 protrudes more forward than the installed inorganic heat insulating plate 100.

As shown in Fig. 2, the lowermost reinforcing mesh 400 protruded in this manner is formed by installing all the lowermost left and right heat of the inorganic insulating plate 100 in the inorganic heat insulating plate installing step (S3) The bottom surface and the front surface of the inorganic insulating plate 100 to which the lowermost reinforcing mesh 400 touches are adhered to each other with the mortar so that the mesh 400 adheres to the front surface or the inorganic insulating plate 100 The bottom reinforcement mesh 400 is adhered while adhering to the bottom reinforcement mesh 400 or the bottom reinforcement mesh 400 is adhered while adhering to both sides and the top reinforcement mesh installing step S4, So that the reinforcing mesh 400 is so embossed.

3 and 7, the subsequent step S3 of installing the inorganic insulating plate may be performed by installing the inorganic insulating plate 100 with the previously installed bracket and installing the bracket along the upper surface of the inorganic insulating plate 100 The adhesive 600 is applied to the outer wall before the inorganic heat insulating plate 100 is installed upright and the inorganic heat insulating plate 100 is installed upright, The connecting bracket 300 or the fitting portion 320 of the one-way bracket is fitted to the bottom surface thereof and the outer wall is adhered to the outer wall by the adhesive 600. If the outer wall is not uniform, It is preferable that the inorganic insulating plate 100 is vertically installed.

On the other hand, the adhesive 600 to be used is used as a supplementary adhesive, such as a urethane adhesive or a foamed urethane adhesive, or a cement adhesive (mortar) is used.

The connection bracket 300 is installed above the inorganic insulating plate 100 installed on the upper part of the inorganic insulating plate 100 which is in contact with the floor and the external wall and the external wall which is in contact therewith. The lower fitting portion 330 of the connection bracket 300 is inserted into the lower inorganic insulating plate 100 and the upper upper fitting portion 320 of the connection bracket 300 is protruded upward The two sides of the elbow bracket 200 are brought into contact with the support portion 310 of the connection bracket 300 and the outer wall of the elbow bracket 200 and then the fixing members 700 and 710 The brackets are installed in consideration of the thickness of the inorganic heat insulating plate 100, and a plurality of brackets are provided along the upper part of the inorganic heat insulating plate 100 installed in this way. In this process, the elbow bracket 20 0 may be installed first and the connection bracket 300 may be installed thereon. Even if the outer wall is uneven and the position of the elbow bracket 200 fixed to the outer wall is widened, the position of the connection bracket 300 And it can be easily fixed to the elbow bracket 200 when it is adjusted.

In this manner, a plurality of inorganic heat insulating plates 100 are provided in an area of an outer wall for external heat insulation. As shown in FIG. 3, a bracket for fixing the inorganic heat insulating plate 100 on the uppermost position is provided with a unidirectional connecting bracket 300 ') is preferably applied,

After finishing the installation of the inorganic insulating plate 100 in the step of repeating the inorganic insulating plate mounting step S3, a pin (not shown) having a U shape is formed on the side surface of the inorganic insulating plate 100 installed up and down, When the both ends of the fin are inserted and inserted so as to be connected to the two inorganic insulating plates 100, the inorganic insulating plates 100 installed up and down can be connected more closely.

As shown in FIGS. 2, 3 and 8, the intermediate reinforcement mesh 410 is additionally provided between the upper and lower inorganic insulating plates 100 in the step (S3) of installing the inorganic insulating plates. The intermediate reinforcement mesh 410 is placed on the bracket provided on the upper surface of the installed arched plate 100 and the upper surface of the installed arched plate 100, The reinforcing mesh 410 is projected forward, and the protruding intermediate reinforcing mesh 410 puts the scissors at regular intervals along the length direction.

The intermediate reinforcing mesh 410 installed in this manner is installed on the upper surface of the installed intermediate reinforcing mesh 410 and then the protruded intermediate reinforcing mesh 410 is attached to the upper surface of the inorganic insulating plate 100 , The inorganic insulating plates 100 are attached to the outer walls in the repeating step of installing the inorganic insulating plates 100 and the intermediate reinforcement mesh 100 410 are adhered while being adhered to each other or the intermediate reinforcing mesh 410 is adhered while adhering to both sides and the uppermost reinforcing mesh installing step S4, do.

Next, as shown in Fig. 4, the side reinforcing mesh installing process S4 is performed by installing the side reinforcing mesh 420 along the upper and lower sides of the lowest side of the inorganic insulating plate 100 installed on the outer wall, A step of installing the uppermost reinforcement mesh 430 along the uppermost part of the installed inorganic heat insulating plate 100 in the left and right direction, The side reinforcement mesh 420 is attached to the lowermost side of the inorganic insulating plate in such a manner that the reinforcing mesh 410 is placed on a part of the outer wall adjacent to the outermost surface of the inorganic insulating plate 100 and is adhered while using the mortar. The uppermost reinforcing mesh 430 is provided along the upper surface of the heat insulating plate 100 and the uppermost surface of the inorganic insulating plate 100 and the uppermost reinforcing mesh 430 protruding toward the inorganic insulating plate 100 are bonded to the inorganic insulating plate 100, and the plaster is so smooth that the side reinforcement mesh 420 and the upper reinforcement mesh 430 are embedded.

The uppermost reinforcing mesh 430 is first placed on the uppermost surface of the inorganic insulating plate 100 and the side reinforcing mesh 420 is placed on the uppermost side of the lower plate 100 It may be installed.

5, 6, and 8, in the front reinforcing mesh installing step S5, the front reinforcing mesh 440 is placed on the front surface of the inorganic heat insulating plate 100 provided on the outer wall, The front reinforcement mesh 440 is placed on the front surface of the inorganic heat insulating plate 100 and adhered to the front surface of the inorganic insulating plate 100 with mortar.

5 shows that the front reinforcement mesh 440 covers all of the inorganic insulation plates 100 installed at one time. However, since the width of the front reinforcement mesh 440 is limited, It is preferable that the front reinforcement mesh 440 provided according to the heat insulation area is suitably cut and connected to be used.

Next, as shown in Fig. 8, the plastering step S6 is carried out in such a manner that the inorganic insulating sheet 100 and the lowermost reinforcement mesh, the intermediate reinforcement mesh 410, the side reinforcement mesh 420, the uppermost reinforcement mesh 430, The step of inserting reinforcing mesh 440 into the mortar is performed smoothly so that the reinforcing mesh is integrated with the reinforcing mesh using the mortar. The embossing step S6 is performed once or more as necessary after curing You can repeat it further.

Finally, the finishing step (S7) is a step of external finishing the surface cured and cured by a usual method. Examples of the external finishing include a method of painting (coating), tiling (tile brick) Or the outer wall is closed by using a separate sheathing material, or the outer wall is closed by any other usual method, and the outer heat insulating construction is completed in this finishing step (S7).

In this way, since the inorganic insulating plate 100 is primarily fixed by the use of the elbow bracket 200, the connection bracket 300, and the one-way connection bracket 300 ', the inorganic insulating plate 100 If the degree of overlap between the elbow bracket 200 and the connection bracket 300 or between the elbow bracket 200 and the one-way connection bracket 300 'is adjusted even if the outer wall is not uniform, The upper face of the face plate is provided with a connecting bracket 300 having upper and lower fitting portions 320 and 330 protruding upward and downward. The close connection of the top and bottom is closely related.

When the rock plate is applied to the inorganic insulating plate 100, the rock plate may be split in the plane direction due to the material properties of the rock plate, and the glass plate may be torn or scattered. However, The inorganic insulating plate 100 is integrated with the reinforcing mesh to reinforce the reinforcing mesh 100 to increase rigidity and prevent the inorganic insulating plate 100 from being separated, torn, scattered, and dropped off. , The surface of the inorganic insulating plate 100 is not thickened, and since the bracket is used, the construction is easy and the air is short.

In the method of the present invention, the front reinforcing mesh 440 is entirely attached to the front surface of the inorganic insulating plate 100. The intermediate reinforcing mesh 410 between the upper and lower inorganic insulating plates 100 enhances tightness and bonding force. The front reinforcing mesh 440 is prevented from being lifted in the middle by attaching the intermediate reinforcing mesh 410 and the front reinforcing mesh 440 protruding forward.

In addition, since the inorganic insulating plate 100 and the reinforcement mesh are nonflammable materials, they do not spread even when a fire occurs, and thus they are very safe for fire and fire.

100: inorganic insulator 200: elbow bracket
300: Connection bracket 300 ': One-way connection bracket
310: support part 320, 330:
400: Lowermost reinforcement mesh 410: Medium reinforcement mesh
420: Side reinforcement mesh 430: Top reinforcement mesh
440: Front reinforcement mesh 500: Mortar
600, 610: adhesive 700, 710: fixing member

Claims (3)

A glass-wool plate or an inorganic insulating plate is provided,
An elbow bracket having an L-shaped cross section is provided,
A reinforcement mesh constituted by a lowermost reinforcement mesh, a side reinforcement mesh, an uppermost reinforcement mesh, and a front reinforcement mesh is provided,
An outer wall cleaning step (S1) of arranging the surface of the outer wall to be adhered by external heat in a usual manner;
(S2) a plurality of brackets horizontally disposed along the lower portion of the outer wall to be insulated, a bracket for installing the lowermost reinforcing mesh on the bracket provided on the front side of the outer wall along the longitudinal direction of the ground, and a lowermost reinforcing mesh;
An inorganic insulating plate mounting step (S3) of installing an inorganic insulating plate on the outer wall by repeating the process of installing an inorganic insulating plate with the bracket installed previously and mounting the bracket along the upper surface of the inorganic insulating plate;
(S4) a side reinforcing mesh installation step (S4) for installing uppermost reinforcing meshes along the left and right direction of the uppermost surface of the inorganic heat insulating plate provided on the outer wall, respectively, along the upper and lower sides of the uppermost and lower surfaces of the inorganic insulating plates provided on the outer walls;
(S5) a front reinforcing mesh installation step in which the front reinforcing mesh is disposed on the front surface of the inorganic insulating plate installed on the outer wall and is adhered with mortar;
A finishing step (S6) in which the installed inorganic heat insulating plate and the lowermost reinforcing mesh, the side reinforcing mesh, the uppermost reinforcing mesh and the front reinforcing mesh face are filled with mortar;
The construction is completed in the finishing step (S7) for finishing the plastered surface in the usual manner,
Wherein the inorganic insulating plate is integrated with the reinforcement mesh to prevent the inorganic insulating plate from being separated or detached and scattered, and is safe for fire.
The method according to claim 1,
Further comprising an intermediate reinforcement mesh,
In the step (S3) of installing the inorganic insulating plates,
The lowermost reinforcing mesh is plastered with mortar so as to adhere to the bottom surface and a part of the front surface of the inorganic insulating plate installed in the lowermost row,
In the step (S3) of installing the inorganic insulating plates,
An intermediate reinforcement mesh is positioned between the upper and lower inorganic insulating plates so as to protrude to the outside,
The protruded reinforcing mesh is adhered to the front surface of the upper and lower inorganic insulating plates while adhering with mortar so as to cross the upper and lower sides by scissors,
In the both side and top reinforcing mesh installing process S4,
The side reinforcing mesh finely adheres to the side surface of the inorganic heat insulating plate, a part of the external wall and the front surface of the inorganic heat insulating plate,
The uppermost reinforcing mesh is finely adhered to the uppermost surface of the inorganic insulating plate and a part of the inorganic insulating plate,
Wherein the inorganic insulating plate is integrated with the connection bracket and the plurality of reinforcement meshes to prevent the front reinforcement mesh from being lifted by the intermediate reinforcement mesh.
3. The method according to claim 1 or 2,
And a connection bracket formed integrally with the plate-shaped support portion and a plurality of fitting portions vertically protruded upward or downward with respect to the support portion,
When the elbow bracket is installed, the support portion of the elbow bracket is overlapped with the horizontal surface of the elbow bracket,
Wherein the reinforcing mesh is selected from a carbon fiber mesh, a glass fiber mesh, and a metal mesh,
The fitting portion of the connection bracket is formed to be narrowed from the support portion toward the end thereof,
When the inorganic heat insulating plate is installed on the outer wall, the lower and back surfaces of the inorganic heat insulating plate are attached by an adhesive,
The reinforcing mesh may be attached or mortar used for plastering may be formed by applying ordinary cement mortar or polymer cement mortar,
The method of claim 1, wherein the inorganic insulating plate is connected to the connecting bracket.

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