KR100498273B1 - Structure of outer insulation of iron an architect - Google Patents

Abstract

The present invention relates to an outer insulation structure of steel framed building according to the demand for the efficient use of energy, the reduction of noise between floors, and the reinforcement of thermal insulation regulations. In the cement plate 11 and the foam foam 12 of the outer side and the insertion hole 131 formed on both sides of the iso pink organic plate 12 is inserted into the sliding hole 121 of the foam foam 12 The wing parts 101 formed on both sides of the composite panel 10 are bolted to and fixed to the outside of the steel frame 1 of the steel frame building in a state where they overlap with the wing parts 101 of the adjacent composite panel 10. Condensation which occurs frequently in winter can be effectively prevented, and iso-pink is used to prevent local settling of dynamic and elasticity due to its characteristics. It is.

Description

Structure of outer insulation of iron an architect

The present invention relates to an outer heat insulation structure of steel frame construction, and more particularly, in accordance with the demand for noise reduction and strengthening of insulation regulations in terms of high-end housing and efficient use of energy.

In order to insulate a building, installing a heat insulating material on the wall surface is performed. In the case of steel-framed buildings, a method of installing a heat insulating material on a wall surface is generally performed by filling a heat insulating material such as a wool into a cavity between an outer wall and an inner wall, a so-called heat insulating method.

In the heat-insulating method of steel-frame buildings, there is a drawback that the insulation effect is deteriorated due to incomplete filling of the insulation, and the insulation cannot be attached to the back, and the work is expensive.

On the other hand, if the wall surface is the contents like a concrete wall, and there is no cavity for filling the heat insulating material therein, a method of directly installing the heat insulating material inside or outside the wall surface is used.

Insulation method to directly install the heat insulator on the wall as described above was to nail the heat insulator to the wall surface and it was necessary to nail in many places to secure sufficient installation strength. Therefore, the external insulation method could only be applied to reinforced concrete buildings that could be burned in any place because the entire wall was filled with contents.

The outer insulation method for installing the heat insulator on the outside of the wall has a great advantage in terms of simplicity of work and shortening of working time.

Therefore, it has been expected to develop an external insulation method that can be applied to reinforced concrete buildings.

On the other hand, in the construction work that finishes using the stone on the outer wall, the stone is fixed by using the stone angle 204 on the outside of the structure, and the insulation is installed inside the structure to insulate the outside, and the glass fiber or the outside To fill and finish the rock wool, vertical and horizontal studs were installed and finished with gypsum board or night light and then painted or finished with wallpaper.

In the heat insulation method in masonry, as shown in Figs. 1 and 2, insulator 202 having a water-based paint 200 applied to the surface of the structure 203 is inserted in order to ensure heat insulation of the wall. The inner insulation 202 is used, such as glass fiber or rock wool, and the boards such as gypsum board 201 must be supported from the outside of the heat insulating material, and additionally the inner wall was required.

However, these days, the heat-resistant insulation method is gradually turned into an external insulation for effective insulation. However, in the construction work where the exterior is finished by masonry, it is not possible to insulate the part to which the angle is attached when fixing the external stone.

Therefore, the heat insulation method required additional space 205 for heat insulation, resulting in a reduction in the area of the thread. The heat insulation method itself was complicated in construction and required a lot of effort and materials. There is a concern that the breakage and the filling of the heat insulating material is not filled tightly, the heat insulation effect is partially degraded.

An object of the present invention solves the above disadvantages and provides a thermal insulation effect that was previously insufficient, and can effectively prevent condensation that occurs frequently in winter, and by using iso pink, the locality of the elasticity and elasticity It is intended to provide an outer insulation structure of steel-framed buildings that can reduce noise and reduce noise.

In order to achieve the above object, the composite of the composite panel adjacent to the wing plate formed on both sides of the composite panel is configured to insert the inserts formed on both sides of the iso-pink organic plate in the outer cement plate and the foam and the sliding hole of the foam foam It is characterized in that the bolt is attached and fixed to the outside of the steel frame of the steel frame building in a state overlapping the wing, in another embodiment a plurality of protrusions formed on the surface of the foam foam of the composite panel formed on the surface of the iso pink organic plate Characterized in that the structure is bound to the insertion hole.

In addition, the foam foam provides an outer insulation structure of the steel frame building, characterized in that any one of polyethylene foam or epoxy foam or phenol foam.

Hereinafter, the configuration and one embodiment of the present invention will be described in detail with reference to the accompanying drawings.

First, look at the accompanying drawings as follows.

Figure 4 is a view schematically showing the outer insulation structure of the steel frame building is equipped with a composite panel of the present invention, Figure 5 is a plan view showing a structure in which the composite panel of the present invention is mounted on a steel frame, Figure 6 7 is a perspective view illustrating a coupling structure of an iso pink organic substrate and a foam foam, which is a configuration of the composite panel of the present invention, and FIG. 7 is a perspective view illustrating a coupling structure of the iso pink organic substrate and foam foam according to another embodiment of the composite panel of the present invention. 8 is a view showing the configuration of another embodiment of the iso pink organic substrate and foam foam of the composite panel of the present invention, Figure 9 is a side view showing the configuration of another embodiment of the composite panel of the present invention.

The outer insulation structure of the steel-framed building of the present invention, Figure 4 schematically shows the outer insulation structure of the steel-framed building on which the composite panel of the present invention is mounted, and a plan view showing the structure in which the composite panel of the present invention is mounted on a steel column As can be seen in Figure 5, the outer side of the cement plate 11 and the foam foam 12 and the insertion portion 131 formed on both sides of the iso pink organic plate 12 in the sliding hole 121 of the foam foam 12 Wing portion 101 formed on both sides of the composite panel 10 is configured to be inserted into the outer side of the steel frame (1) of the steel frame building in a state overlapping the wing portion 101 of the neighboring composite panel 10 It is a structure to be attached and fixed.

In another embodiment of the composite panel 10 and the iso pink organic plate 12 of the present invention, as shown in FIGS. 7 and 8 showing the coupling structure, the foam foam 12 of the composite panel 10 is shown. A plurality of protrusions 122 formed on the surface of the) is bound to a plurality of insertion holes 132 formed on the surface of the iso pink organic plate 12.

On the other hand, the foam foam 12 may be any one of polyethylene foam, epoxy foam or phenol foam.

As described above, the outer heat insulation structure of the steel-framed building of the present invention can be applied to the outer heat-resistant method to the steel framed building that has not been applied in the past, a great advantage in terms of simplicity of work and reduction of working time This came to be.

As described above, the present patent is not limited to the specific preferred embodiments described above, and any person skilled in the art to which the patent pertains may make various modifications without departing from the gist of the present patent as claimed in the claims. Of course, such changes are within the scope of the claims.

As described above, the outer insulation structure of the steel-framed building of the present invention has a high thermal insulation performance with a simple configuration by installing a composite panel in which the cement plate, foam foam and iso-pink organic plate are laminated from the outside to the structural member of the steel-framed building Can be derived.

In addition, by installing on the outer wall of the structure to have a thermal insulation effect during the construction of the construction work, it is possible to eliminate the use of boards such as gypsum board on the inner wall, and to increase the effect of blocking heat by installing on the outer wall It can reduce the construction process and prevent additional input of labor cost and material cost, and it can prevent the reduction of interior area by installing insulation material in the room for heat insulation, and it is easy to install, and tight insulation of insulation material It is possible to provide an external insulation structure that can be installed.

1 and 2 is a view schematically showing the installation structure of the thermal insulation construction in building construction.

Figure 3 is a schematic view showing the outer wall structure of a conventional building.

Figure 4 is a view schematically showing the outer insulation structure of the steel frame building is mounted composite panel of the present invention.

Figure 5 is a plan view showing a structure in which the composite panel of the present invention is mounted on a steel frame.

Figure 6 is a perspective view showing a coupling structure of the iso pink organic substrate and the foam foam of the composite panel of the present invention.

Figure 7 is a perspective view showing a coupling structure of the iso pink organic substrate and foam foam in another embodiment of the composite panel of the present invention.

8 is a view showing the configuration of another embodiment of the iso pink organic substrate and foam foam of the composite panel of the present invention.

Figure 9 is a side view showing the configuration of another embodiment of a composite panel of the present invention.

<Description of Major Symbols in Drawing>

1: steel frame 2: outer wall

3: bolt 4: nut

5: inner wall 10: composite panel

11: cement board 12: foam foam

13 iso pink organic substrate 101: wing

121: sliding hole 122: protrusion

131: insertion portion 132: insertion hole

Claims (3)

In the outer heat insulating structure of the steel frame building, the inserts formed on both sides of the iso pink organic plate 12 in the outer cement plate 11 and the foam foam 12 and the sliding hole 121 of the foam foam 12 ( Bolting on the outside of the steel frame 1 of the steel-framed building in a state in which the wings 101 formed on both sides of the composite panel 10 configured to be inserted 131 overlaps the wings 101 of the adjacent composite panel 10. The outer insulation structure of the steel frame building, characterized in that the fixed. According to claim 1, The plurality of protrusions 122 formed on the surface of the foam foam 12 of the composite panel 10 is bound to a plurality of insertion holes 132 formed on the surface of the iso pink organic plate 12 External insulation structure of steel framed building, characterized by the structure. According to claim 1 or 2, wherein the foam foam 12 is an outer insulation structure of the steel frame building, characterized in that any one of polyethylene foam, epoxy foam or phenol foam.