KR101398336B1 - Dryvit remodeling method - Google Patents

Abstract

A dry bit remodeling method is provided for quickly and firmly adhering and adhering an adiabatic building panel to an outer wall of a dry bit building in order to prevent deterioration of heat insulation efficiency due to aging and damage of an outer wall body of a building constructed with dry bits. Wherein the dry bit remodeling method comprises the steps of: cleansing the dry bit outer wall at regular intervals and drilling the hole from the dry outer wall to the wall of the building; An anchor bolt is fastened to an engaging hole formed in the dry-bit outer heat-insulating wall through a screw hole formed in a vertical surface of a bracket having a horizontal surface to securely attach the bracket to the building wall body, and a rectangular frame is attached to the end of the horizontal surface of the bracket A frame attaching step of welding and attaching; A step of fitting a mounting groove of a panel fastener having an upwardly-bent latching piece and a downwardly-bent insertion piece integrally formed on one side thereof; The lower end of the heat insulating hollow of the building panel having the heat insulating member having the air layer inside is installed on one side of the exterior board formed with the heat insulating hollow and the fixing groove of the panel fastener is inserted Fixing the building panel to the surface of the dry-heat-insulating outer wall by inserting the downwardly bent insert into the upper portion of the heat-insulating hollow of the building panel by sandwiching the frame with another frame fixed to the upper part of the building panel to be installed .

Description

Dryvit remodeling method [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for repairing an exterior wall of a dry building, and more particularly, to a method for repairing an exterior wall of a dry- To a dry bit remodeling method for quickly and firmly attaching the dry bit remodeling method.

Dryvit is a combination of the letters "dry" meaning "dry" and the letters "vit" (fast) meaning "fast" Exterior Insulation Finishing System), which is one of the widely used construction methods in the field of construction since the 1980s. Such Dryvit is an outer wall insulation system originally made of a heat insulating material made of expanded polystyrene, an adhesive mortar, a glass fiber net, and a finishing material. Such a structure is disclosed in Patent Document 1, which is patented in "Dajin Industrial Co., Ltd."

The dry-bit outer wall insulation system disclosed in "Building exterior wall panel and method of construction" of Patent Document 1 has excellent heat insulation and soundproof effect to increase indoor thermal efficiency, and is easy to construct with lightweight material, Because there is an advantage that it is possible, it is applied to the building a lot.

However, there has been a problem in that contamination of stains and the like easily occurs due to dust or rain water over a long time after the dry bit is applied, and there is a problem that leakage occurs due to cracks occurring at the connection portion of the heat insulating material. In order to repair the outer wall of the dry bit, it was repaired in the form of coating with a water-based paint with little elasticity. When it is coated directly on the dry bit, cracks are formed on the surface of the connection part of the thermal insulating material, Leakage was again caused, and the problem of being easily contaminated by contaminants in the air was still present.

In addition, since the above-mentioned dry bit constructions have been applied to buildings since the 1980s, the outer wall bodies are damaged due to various factors such as aging of the building and wind pressure due to strong winds. In severe cases, The outer wall insulator (foamed resin) is greatly damaged and causes a physical or material accident.

If the drywall outer wall is damaged, waterproof and, of course, insulation will not be maintained. An example of a method for repairing an outer wall body of a dry bit building is disclosed in "Patent Document 2" "External Wall Wall Repairing Construction Method" and "Dry Bit External Wall Waterproofing and Repairing Method" in Patent Document 3.

The 'outer wall wall repairing and reinforcing construction method' disclosed in the above Patent Document 2 is a method of reinforcing the outer wall structure and the outer heat insulating layer by anchors and then injecting adhesive mortar between the outer wall structure and the outer heat insulating layer, The structure problem of the dry bit structure is intact and there is a problem that the outer wall is damaged by strong wind pressure due to wind and rain,

In addition, by coating an acrylic coating film waterproofing agent on the outer wall surface of the building to be repaired as described in Patent Document 3 and applying a paint having waterproof, protective and lustering function to the surface of the waterproofing agent, There is a problem in that it can not be used when the heat insulating material or the like on the outer wall surface of the drywall wall deteriorates and the drywall wall deteriorates so much that it is aged.

In addition to the above-mentioned methods, there is a method in which when a building subjected to external heat treatment is subjected to a lot of aging, dry-bit heat insulation of the building wall is removed, and then a construction panel with a good appearance and firmness is adhered thereto. There is a problem in that the thermal insulation of the building is to be re-opened and the cause of polluting the environment is provided.

 [Patent Document 1]

Registration No. 10-0388149 (registered on June 05, 2003)

 [Patent Document 2]

Registration No. 10-1014230 (registered on Feb. 07, 2011)

 [Patent Document 3]

Registration No. 10-1047447 (Registered on July 07, 2011)

Accordingly, it is an object of the present invention to provide a heat insulation panel capable of easily achieving heat insulation efficiency and aesthetic beauty by a simple method without removing a dry bit wall installed on an outer wall of a building To provide a dry bit remodeling method for replacing old and damaged dry bit external heat.

Another object of the present invention is to provide a method of manufacturing a cellulose-reinforced cement board (hereinafter referred to as "CRC board") that is hollow-extruded and molded without an additional tool on a frame fixed with an anchor on the outer wall surface of a dry bit, And remodeling an outer wall of a damaged dry building.

According to another aspect of the present invention, there is provided a method of constructing a panel for an outer wall of a dry bit building, the method comprising the steps of: removing horizontal horizontal lines and vertical vertical lines at regular intervals in a dry outer wall, A step of drilling an engaging hole from the wall of the building; An anchor bolt is inserted into a screw hole formed in a vertical surface of the bracket and is fastened to a coupling hole formed in the dry-bit outer heat-insulating wall to fix the bracket to the building wall body, and a rectangular frame is welded to the end of the horizontal surface of the bracket A frame attaching step of attaching the frame; A step of fitting a mounting groove of a panel fastener having an upwardly-bent latching piece and a downwardly-bent insertion piece integrally formed on one side thereof; The lower end of the heat insulating hollow of the building panel having the heat insulating member with the air layer formed therein is fitted to one side of the exterior board molded with the heat insulating hollow and the mounting groove of another panel fastener is inserted Fixing the building panel to the surface of the dry-heat-insulating outer wall by inserting the downwardly bent insert into the upper portion of the heat-insulating hollow of the building panel; ; And a caulking step of covering the gap between the building panels attached to the upper and lower portions or the portions adjacent to the left and right with caulking materials.

The panel fastener is characterized in that the clamp has a clamping groove formed to be inserted into a rectangular frame and a clamping piece bent upward from the one side of the clamp and bent downward in a direction opposite to the clamping piece.

As the caulking material, a method using acetic acid resin, synthetic resin silicone resin, or the like may be used, but silicon caulking is preferred.

The exterior board of the building panel is formed with recesses formed in the side ends of the exterior board of the building panel and protrusions and grooves that are inserted into the insertion protrusions.

Wherein the heat insulating member has a first heat insulating plate arranged in a lattice shape such that the concave and convex portions are shifted from each other and a second heat insulating plate arranged on the first heat insulating plate in such a manner that irregularities engaging with the concave and convex portions are shifted from each other, And a heat insulating member formed of a second heat insulating plate joined to form an air insulating layer therebetween.

It is preferable that an aluminum thin film or a polyethylene film is attached to the back surface of the heat insulating member.

And a cap having a protrusion formed on a surface of the heat insulating member attached to one side of the external board to prevent foreign substances from entering the groove.

According to the embodiment of the present invention, since a frame is installed on an old dry-bit outer wall after deteriorating, it is possible to quickly and firmly attach a building panel having excellent heat insulation efficiency without using a tool, It is possible to eco-friendly construction of the outer wall insulation wall of the building without removing the dry heat insulation wall formed of the thermal insulation finishing material.

1 is an external perspective view of a heat insulating building panel according to a preferred embodiment of the present invention;
FIG. 2 is an assembled perspective view of the heat insulating building panel shown in FIG. 1. FIG.
3 is an assembled perspective view of a building panel fixing structure according to a preferred embodiment of the present invention.
Fig. 4 is a perspective view of the panel fastener shown in Fig. 3; Fig.
5 is a view for explaining a process of constructing a frame on a dry-heat-insulating wall according to a construction method according to a preferred embodiment of the present invention.
6 is a cross-sectional perspective view showing a part of a building wall constructed according to a construction method according to a preferred embodiment of the present invention.
Figure 7 is a partial cross-sectional view of the constructed wall shown in Figure 6;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings. It should be understood, however, that the invention can be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. It should be noted that the embodiments of the present invention described below are intended to sufficiently convey the spirit of the present invention to those skilled in the art.

First, a structure of a building panel according to a preferred embodiment of the present invention will be briefly described with reference to FIGS. 1 and 2. FIG.

1 and 2, a building panel 10 according to a preferred embodiment of the present invention includes an exterior board 11 of a CRC formed by extrusion forming a hollow 17, The grooves 15 are formed at regular intervals and the surface on which the grooves 15 are formed is formed by joining the heat insulating member 12 to either the front surface or the back surface of the external board 11. [ At this time, the exterior board 11 and the heat insulating member 12 can be firmly coupled using an adhesive.

The heat insulating member 12 is provided with a first heat insulating plate 12a and a second heat insulating plate 12b which are arranged in a lattice pattern such that irregularities 19a made of irregularities 15 and 16 are shifted from each other, Convex portions 19b made of convex portions 16 and convex portions 15 engaging with concave portions 15 and convex portions 16 of the convexo-concave portions 19a are formed in the concave and convex portions 19a, And a second heat insulating plate 12b arranged in a lattice pattern so as to be shifted. At this time, the protruding length of the convex portion 19a and the convex portion 19b of the convex portion 19b is shorter than the groove depth of the concave portion 15.

When the surface of the convex portion 19a of the first heat insulating plate 12a is joined to the surface of the convex portion 19b of the second heat insulating plate 12b, The convex portion 19b of the second heat insulating plate 12b is fitted to the concave and convex portion 19a in a fitting manner. The concave and convex portions 15 and 16 and the concave portions 15 and 15 may be any one of a square shape, a triangular shape, and a circular shape. It is preferable that a step is formed in the inside so that the lower portion is narrower than the upper portion so that the end portions of the upper and lower plates 16, 16 are caught.

Therefore, when the convex and concave portions 19b of the second heat insulating plate 12b are fitted to the concave and convex portions 19a of the first heat insulating plate 12a in a fitting manner, A heat insulating air layer is formed between the first heat insulating plate 12a and the second heat insulating plate 12b by being caught by a step formed at the lower part of the recess 15 and not coming down any more.

The reason why the heat insulating air layer is formed inside the heat insulating member 12 is that the heat insulating efficiency is improved by forming an air layer having a thermal conductivity lower than that of the expanded polystyrene and when the building panel 10 is attached to the wall of the building, It is to hold firmly by strong wind pressure. The first and second heat insulating plates 12a and 12b combined as described above may be formed of a synthetic resin having a low thermal conductivity such as expanded polystyrene (EPS).

On one side surface of the external board 11, protrusions 13 projecting to the outside are formed. On the other side surface, recessed grooves 14 are formed in the longitudinal direction. The projection 13 and the groove 14 is to be coupled to the groove and the projection formed on the right and left sides of the building panel, the neighboring easily bond the building panel to the wall, and facilitates the seal when the coupling between the building panel neighboring .

It is preferable that the length of the heat insulating member 12 coupled to one surface of the external board 11 is shorter than the length of the external board 11. [ 1 is mounted on a wall, a fixed frame is attached to the wall. A part of both ends of the vertically adjacent building panel 10 is installed so as to be in contact with the fixed frame. .

It is preferable that an aluminum foil or a film 18 such as a polyethylene film is attached to the back surface of the upper insulating member 12. [ The film 18 adhered to the back surface of the heat insulating member 12 can be thermally fused to the heat insulating member 12 by using a hot melt adhesive coated on the bonding surface. Such a film 18 is useful for waterproofing, soundproofing and insulation.

The thickness of the exterior board is preferably set to 15 to 40 mm, and the thickness of the foamed polystyrene layer is preferably set to 30 to 50 mm. In order to facilitate the construction of the wall of the building, . When the surface of the external board is coated with a paint of stone texture or metal texture, the wall may have a stone texture or a metal texture when used as an exterior material of a building.

The thickness of the external board 11 is preferably set to 15 mm to 40 mm and the thickness of the heat insulating member 12 is preferably set to about 50 mm. For the convenience of installation, As shown in Fig. The exterior board 11 is a CRC containing carbon black. The CRC has protrusions 13 and recesses 14 formed on the right and left sides thereof, and a hollow 17 is formed at the center thereof. The holes 17 are formed at regular intervals in the vertical direction at the center of the exterior board 11 so that the air filled in the interior minimizes the temperature transfer between the front and back surfaces of the exterior board 11. [

Carbon black is a conductive carbon black of 40 to 60 mesh on the exterior board 11, and the total weight ratio of the conventional CRC board composition composed of cellulose fiber, Portland cement, silica sand and additives is less than 5% . The carbon black is conductive, thereby suppressing the generation of static electricity on the surface of the interior and exterior materials of the building, thereby preventing foreign matter from sticking to the building. The reason why the external board contains carbon black is to provide an antistatic effect. It is possible to prevent the foreign matter from sticking to the surface static electricity of the external board in the case of having antistatic effect by containing carbon black.

The exterior board 11 comprises 16 to 18% by weight of cement, 63 to 67% by weight of silica sand, 12 to 15% by weight of water, 0.1 to 0.2% by weight of cellulose fiber, 0.5 to 0.7% by weight of additives (fluidizing agent and swelling agent) 4 to 6% by weight of black are mixed and stirred to prepare a composition by extrusion molding under high pressure / high heat. This manufacturing method is the same as that of a conventional CRC board. Although not shown in the drawing, a paint of stone texture or metal texture may be sprayed on the surface of the exterior board 11 so that the wall surface can display a stone texture or a metal texture when applied to a wall of a building .

When the building panel 10 manufactured as described above is fixedly attached to the wall of the building by forming the hollow 17 by the hole vertically penetrating the central portion of the exterior board 11, And a heat insulating layer between the outside and the wall is formed by the structure of the honeycomb structure and the air filled in the holes. The heat insulating member 12 formed to have a thickness of about 30 mm to 50 mm and adhered to the back surface of the exterior panel 11 and the film 18 composed of a polyethylene film or aluminum thin film layer having a thickness of several mm It is possible to make three-dimensional heat insulation between the walls, which is advantageous in that the heat insulation efficiency is excellent.

The building panel 10 having the construction as shown in FIGS. 1 and 2 can be manufactured by using the fixing structure 20 constructed as shown in FIGS. 3 and 4, It is possible to firmly and quickly fix and attach to the exterior of the dry-bit outer heat-insulating wall 102, which is constructed as a finish material.

3 and 4, the fixing structure 20 according to the preferred embodiment of the present invention is inserted into the building wall body 100 through the dry-bit outer insulating wall 102 by anchor bolts 24 or the like, A rectangular frame 22 attached by welding or the like to the bracket 30 and a bracket 30 fixedly attached to the surface of the dry-bit outer heat insulating wall 102, And a panel fastener 25 which is joined in the form of a panel fastener.

The bracket 30 is fixed to the wall by an anchor bolt 24 as a metal tool and the rectangular frame 22 is fixed to the end of the lower portion of the bracket 30 For example, by welding or the like, and is spaced from one side of the bracket 30.

As shown in Fig. 3, the panel fastener 25 to be fitted into the frame 22 includes a clamp 26 formed with a mounting groove 29 opened at a lower portion thereof, And an engaging piece (28) bent downward in a direction opposite to the engaging piece (27). The panel fastener 25 constructed as shown in Fig. 3 can be easily combined with the mounting groove 29 formed in the lower part of the clamp 26 only by inserting it into the rectangular frame 22, It is possible to assemble / disassemble the frame 22 without using it. Therefore, when hundreds or thousands of architectural panels are installed on the wall, a great number of panel fasteners 25 can freely be fastened to the frame 22 without using a tool, and the air can be greatly shortened.

The building panel 10 constructed as shown in Figs. 1 and 2 is constructed by using the frame 22 of the fixing structure 20 shown in Figs. 3 and 4 and the panel fastener 25, The dried bit outer wall 102 is applied to the surface of the dried bit outer wall 102, which will be described below.

As shown in FIG. 5, in order to attach the building panel 10 constructed as shown in FIG. 1 to the outside of the dry-bit outer insulating wall 102 finished in the building wall 100, an inked string is used 5, a horizontal line 32 and a vertical line 34 are marked on the surface of the dry-wall outer-wall 102. As shown in FIG. At this time, the interval between the horizontal line 32 and the vertical line 34 should be appropriately determined according to the width and length of the building panel 10 to be installed.

Then, the engaging hole 31 is formed in the transverse line 32 at regular intervals as shown in FIG. 7, an anchor bolt 24 can be inserted from the surface of the dry-bit outer heat-insulating wall 102 to a certain depth in the building wall 100 inside the dry-bit outer heat-insulating wall 102 . The bracket 30 of the fixing structure 20 constructed as shown in FIG. 3 is inserted deeply into the dry outer wall 102 and the building wall 100 using the anchor bolts 24, 30).

By the above process, a rectangular frame (not shown) is formed at the end portion of the lower portion of the bracket 30, which is firmly attached to the building wall 100 inside the building through the dry- 22 are welded to be firmly attached as shown in Figs. 5 to 6. Although the rectangular frame 22 is welded to the bracket 30 in the embodiment of the present invention, various methods can be used for connecting the bracket 30 and the frame 22. [ For example, bonding using a bolt and a nut can be carried out, but it is preferable to attach it by welding.

4, the bracket 30 and the rectangular frame 22 are attached to the dry-heat-resistant insulating wall 102, and then the lower portion of the clamp 26 of the panel fastener 25 constructed as shown in Fig. Is inserted from the upper portion of the rectangular frame 22 to the lower portion thereof. Therefore, the fixing structure 20 according to the embodiment of the present invention can be manufactured by attaching the panel fastener 25 to the frame 22 installed on the building wall 100 and the dry- . The panel fastener 25 can be attached to the frame 22 only by manually pushing the mounting groove 29 formed in the lower portion of the clamp 26 of the panel fastener 25 at the upper portion of the rectangular frame 22, Can speed up. In addition, the panel fastener 25 according to the embodiment of the present invention can be easily coupled to the frame 22 without a separate tool, so that the position of the panel fastener 25 coupled to the frame 22 can be easily slid to the left and right The construction panel 20 of various sizes can be quickly attached.

7, i and j and k added to the reference numerals in the drawings in the present invention are 0, 1, 2, 3, 4, 5, (I) of the building panel 10 to the engaging protrusion 27i formed on the clamp 26i of the panel fastener 25i in which the mounting groove 29i is fitted and coupled with the fixing groove 29i, The hole of the lower part of the hollow 17 formed in the board 11 is inserted and brought into close contact with the wall body 100. When the clamping groove 29j formed in the clamp 26j of another panel fastener 25j is fitted to the frame 22j provided on the upper portion of the frame 22i of the wall body 100, The downwardly bent indentation 28j is naturally inserted into the upper portion of the hollow 17 formed on the exterior board 11 of the building panel 10 so that the building panel 10 is positioned between the frames 22i and 22j As shown in Fig.

5 to 7 showing the embodiment of the present invention, two panel fasteners 25 are mounted on the frame 22 to connect the building panel 10, but two or more panel fasteners It is obvious that the building panel 10 can be made rigid by receiving the floor panels 25. The building panel 10 installed on the building wall 100 according to the above-described method includes a panel fastener 25i coupled to the frame 22i attached to the wall 100 and an upper panel 23j coupled to the upper frame 22j. So that the building panel 10 can be firmly installed.

In addition, the adjacent building panels 10 are firmly coupled to each other by the protrusions 13 and the recesses 14 protruding from left and right sides, respectively, so that the heat insulation efficiency can be improved. When the installation of the middle part of the building panel 10 is completed as described above, the uppermost frame 22 and the panel fastener 25 are combined with the upper part of the hole of the uppermost building panel 10 to construct the building wall 100 Complete panel construction. 5 to 7, the bracket 30 and the frame 22 are fixed to the building wall body 100 with the anchor bolts 24 at regular intervals, The panel fasteners 25 shown in Figs. 4A and 4 can be used to quickly and firmly attach and fix the panels without using bolts and nuts for fixing the panels. Thereafter, after sealing with the sealing agent between the adjoining fixed building panels 10, caulking with silicon as in SC of FIG. 6 is completed, the outer wall insulation construction of the building according to the present invention is completed. As described above, according to the present invention, the fixing frame 21 is firmly attached to the wall 100 of a building using an anchor ball or the like, and then the building panel 10 is fixed to the fixed frame 21 by using only the panel fasteners 25, The construction of the finished building panel of the outer wall of the building can be simplified.

According to the above-described construction method, it is possible to simplify the outer heat insulation finishing work of the dry bit construction without detaching the dry bit outer insulation wall 102, so that the construction waste can be generated when the exterior of the building constructed according to the dry bit outer heat insulation method is restored. It is eco-friendly. In addition, according to the present invention, the panel construction method of the outer wall of the dry building can greatly shorten the air by installing the building panel excellent in heat insulation and sound insulation effect without removing the dry outer wall having excellent heat insulation effect. .

The present invention relates to a decorative panel for a decorative panel, and more particularly, to a decorative panel having a decorative panel, wherein the decorative panel comprises a heat insulating member, a heat insulating member, a plurality of projections, The present invention relates to a structure for mounting a door frame on a wall of a building, and more particularly, Exterior wall insulation.

Claims (4)

A method for remodeling an outer wall of a dry bit building, the method comprising the steps of: cleansing horizontal and vertical lines at regular intervals in the dry-bit outer wall (102) Drilling the engagement hole (31) with the wall (100); The anchor bolts 24 are inserted into the screw holes formed in the vertical surface of the bracket 30 and are fastened to the coupling holes 31 formed in the dry bit outer heat insulating wall 102 to attach the brackets 30 to the building wall 100, Attaching a rectangular frame (20) to an end of a horizontal plane of the bracket (30); A clamp 26 formed at a lower portion thereof with a mounting groove 29 opened to be fitted in a rectangular frame 20 and a clamping piece 27 bent in one direction from the one side of the clamp 26, Fitting the mounting groove (29) of the panel fastener (25) with the downwardly bent insertion piece (28) to the rectangular frame (22); A first heat insulating plate 12a arranged in a lattice such that the concave and convex portions 15 and 16 are shifted from each other and a convex and concave portion 16 and 15 joined to the concave and convex portions 15 and 16 (12) composed of a second heat insulating plate (12b) arranged in a lattice shape so as to be offset from each other and joined to the first heat insulating plate (12a) and forming an air heat insulating layer therebetween is formed in an outer The lower part of the heat insulating hollow 17 of the building panel 10 attached to one side of the board 11 is fitted to the engaging piece 27 of the panel fastener 25 and the other panel fastener 25, Fitted into the other rectangular frame 20 fixed to the upper part of the building panel 10 to which the building panel 10 is attached and the downwardly bent fitting piece 27 is inserted into the heat insulating hollow 17) to fix the building panel (10) to the surface of the dry-bit outer heat-insulating wall (102); And a caulking step of filling a gap between the building panels (10) attached to upper and lower portions or adjacent portions of the building panels with a caulking material (SC). delete delete The dry-bit remodeling method according to claim 1, wherein a film (18) selected from an aluminum film or a polyethylene film is attached to a back surface of the second heat insulating plate (12b).

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