KR20160125661A - Fixing structure for a outside panel of building and construction methods - Google Patents

Abstract

According to one aspect of the present invention to achieve the purpose, a fixing structure of an external material of a building comprises: an anchor having one end inserted and fixated on a building structure; an insulation material provided to face the building structure, through which the anchor is penetrated; a supporting member provided on the outside of the insulation material and coupled to the anchor; and a pair of nuts coupled to the anchor for fixing the supporting member on the anchor.

Description

TECHNICAL FIELD [0001] The present invention relates to a fixing structure of a building exterior material and a method of constructing the same,

The present invention relates to a fixing structure of a building exterior material, and more particularly, to a building exterior material which can reduce energy loss of buildings, prevent condensation, and perform a role as a passive house And a method of constructing the same.

Recently, as the cost of fossil fuel such as coal and oil has rapidly increased, interest in passive house that can minimize energy waste in the design and construction of buildings is increasing.

In other words, a passive house is a building that keeps the room temperature properly without using fossil fuel by blocking heat from the building to the outside as much as possible.

Various types of thermal barrier materials have been developed for this purpose, and attempts have been made to use the thermal barrier materials as the exterior materials of buildings.

However, even if the building is constructed using the exterior material of the building with increased heat shielding efficiency, when the conventional fixing means such as Korean Patent Laid-Open No. 10-2012-0035976 (2012. 04. 17) There is a problem that the effect of deep-sea heat insulation is reduced and a separate finishing process is required.

In addition, since the fixing means such as set anchors and brackets are generally made of a metal material, the heat from the outside of the building is transferred to the set anchors and brackets, and flows into the building, thereby causing energy loss of the building.

It is an object of the present invention to provide a fixing structure of a building exterior material and a method of constructing the same, which can prevent the thermal insulation effect of the insulation material from being reduced by minimizing damage to the insulation material.

It is another object of the present invention to provide a fixing structure of a building exterior material which can prevent energy loss of a building, prevent condensation, and serve as a passive house by blocking heat bridge, and a construction method thereof.

According to an aspect of the present invention, there is provided a structure for fixing a building exterior material, comprising: an anchor which is inserted and fixed at one end of the building structure; a heat insulation member which is fitted to the building structure and through which the anchor is inserted; A support member provided on the outer side of the heat insulating material and engaged with the anchor, and a pair of nuts fixed to the anchor and fixing the support member to the anchor.

The support member may include a bracket for supporting the building exterior material in association with the anchor.

The support member may include a plate coupled to the plurality of anchors when the anchors are provided, and to which the brackets are fixed.

The plate may have a body portion coupled to the anchor and a support portion extending from the body portion and adapted to abut the heat insulating material to improve the structural rigidity of the plate.

And a heat insulating pad provided between the heat insulating material and the supporting member to block external air from flowing into the heat insulating material.

Wherein the heat insulating pad has a heat insulating portion on both sides of which the heat insulating member and the support member are respectively fitted, a protrusion extending from the heat insulating portion and inserted into the heat insulating material for a predetermined length, As shown in Fig.

The anchor may include a packing part which is provided to be in contact with the protruding part and which covers all or a part of the anchor to block heat transfer through the anchor.

According to another aspect of the present invention, there is provided a method of constructing an anchoring structure for a building, comprising the steps of: fixing an anchor to a building structure; inserting the anchor into the building structure; A step of fastening a nut to the anchor passing through the heat insulating material; a step of coupling a support member to the anchor; and a step of fastening the support member to the anchor by fastening another nut to the anchor Step.

And bonding the heat insulating pad to the anchor before the step of fastening the nut to the anchor passing through the heat insulating material.

The supporting member may include a bracket for supporting the exterior material of the building in combination with the exterior material of the building.

The support member may include a plate coupled to the plurality of anchors when the anchors are provided, and to which the brackets are fixed.

The step of joining the support member to the anchor may include joining the plate to the anchor, and fixing the bracket to the plate.

According to the fixing structure of the building facade and the method of constructing the same according to the present invention, since the heat insulating material is damaged only by the diameter of the anchor, the heat insulating effect of the heat insulating material can be prevented from being reduced by half.

The insulation pad and the packing part combined with the anchor can block the heat bridge through the anchor fixed to the building structure, thereby reducing the energy loss of the building.

In addition, the building structure to which the construction material of the present invention is applied and the construction method thereof can be used as a passive house.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view illustrating a structure of a building exterior material according to an embodiment of the present invention installed on a building structure. FIG.
2 is a cross-sectional view showing a state in which a heat insulating pad is provided in a fixing structure of a building exterior material according to an embodiment of the present invention;
FIG. 3 is an exploded view showing a state in which a heat insulating pad is provided in a fixing structure of a building exterior material according to an embodiment of the present invention. FIG.
4 is a cross-sectional view illustrating a packing structure in a fixing structure of a building exterior material according to an embodiment of the present invention;
FIG. 5 is a cross-sectional view illustrating a fixing structure of a building exterior material according to another embodiment of the present invention installed on a building structure. FIG.
6 is a cross-sectional view showing a state in which a building exterior material is installed on a fixing structure of a building exterior material according to another embodiment of the present invention.
7 is a perspective view showing a plate of a fixing structure of a building exterior material according to another embodiment of the present invention.
FIG. 8 is a cross-sectional view showing a state in which a heat insulating pad is provided in a fixing structure of a building exterior material according to another embodiment of the present invention; FIG.
FIG. 9 is a cross-sectional view illustrating a packing structure in a fixing structure of a building exterior material according to another embodiment of the present invention; FIG.
10 is a flowchart showing a construction method of a building exterior material fixing structure according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a fixing structure of a building exterior material and a construction method thereof according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view illustrating a structure of a building exterior material installed on a building structure according to an embodiment of the present invention.

As shown in FIG. 1, the fixing structure of the building facade according to an embodiment of the present invention may include an anchor 100, a heat insulating material 200, a supporting member 300, and a nut 400.

The anchor 100 may be fixed to the building structure 10 by inserting one end of the anchor 100 into the building structure 10. In addition, the building structure 10 may be provided with a heat insulating material 200 provided to face the building structure 10. Here, the heat insulating material 200 may be provided after the anchor 100 is installed first, and the anchor 100 may be installed after the heat insulating material 200 is installed first.

Meanwhile, the building structure 10 may be provided with an anchor installation hole 11 through which the anchor 100 is inserted and fixed. The anchor installation hole 11 may be provided with a heat bridge member 20 for interrupting the heat bridge through the anchor 100 inserted into the anchor installation hole 11. [ As the thermal bridge member 20, resin which is filled in the anchor installation hole 11 and then solidifies to exhibit heat insulation performance may be used. As the resin to be filled in the anchor mounting hole 11, silicone, urethane or the like can be used.

The support member 300 may be coupled to the anchor 100 through the heat insulating material 200 and exposed to the outside of the heat insulating material 200. The supporting member 300 may include a bracket 310 for supporting the building exterior material in association with the anchor 100. Since the bracket 310 is engaged with the anchor 100 fixed to the building structure 10, the bracket 310 can safely support the building exterior member connected to the bracket 310.

The nut 400 may be fastened to the anchor 100 to fix the support member 300 to the anchor 100. The nut 400 may be provided on both sides of the bracket 310 so that the nut 400 faces the both sides of the bracket 310 at which the anchor 100 intersects.

The first nut 410 provided between the heat insulating material 200 and the bracket 310 determines a position where the bracket 310 is fixed to the anchor 100. The heat insulating material 200, The position of the bracket 310 can be determined through the first nut 410 in consideration of the separation distance of the bracket 310. The second nut 420 fastened at a position close to the end of the anchor 100 may serve to substantially fix the bracket 310 to which the fixing position is determined to the anchor 100.

As described above, by fixing the bracket 310 through the pair of nuts 400, it is possible to more easily prevent the bracket 310 from flowing due to external impact or force.

Since the anchor 100 and the bracket 310 are coupled to each other outside the heat insulating material 200 so that the heat insulating material 200 is only exposed to the outside of the heat insulating material 200 The damage of the heat insulating material 200 can be minimized and the heat insulating performance of the heat insulating material 200 can be prevented from deteriorating.

Meanwhile, the gap between the heat insulating material 200 and the anchor 100 exposed to the outside of the heat insulating material 200 is not tightly sealed, so that the outside air penetrates through the gap to deteriorate the performance of the heat insulating material 200 It may cause problems such as condensation inside the building structure 10.

Hereinafter, the heat insulating pad 500 provided to solve the above problems will be described. In the following description, only different parts from the above-described embodiment will be described in detail and the same or similar parts will not be described in detail.

FIG. 2 is a cross-sectional view illustrating a state that a heat insulating pad is provided in a fixing structure of a building exterior material according to an embodiment of the present invention. FIG. 3 is a cross- Fig.

As shown in FIGS. 2 to 3, the fixing structure of the building facade according to an embodiment of the present invention may include a heat insulation pad 500.

The heat insulating pad 500 may include a heat insulating portion 510, a protrusion 520, and an inserting portion 530.

The opposite side of the heat insulating part 510 is opposed to the heat insulating material 200 and the bracket 310 to seal the space between the heat insulating material 200 and the bracket 310 .

The protrusions 520 may extend from the heat insulating part 510 in the direction of the heat insulating material 200 by a predetermined length. The protrusions 520 may extend from the heat insulating part 510 and may be inserted into the gap between the heat insulating material 200 and the anchors 100 exposed to the outside of the heat insulating material 200, have. Therefore, the gap between the heat insulating material 200 and the anchor 100 exposed to the outside of the heat insulating material 200 can be completely filled with the protrusion 520.

Also, the insertion portion 530 may be provided at a position facing the protrusion 520. The first nut 410 is inserted into the heat insulating pad 500 by the inserting unit 530 to insert the first nut 410 into the inserting unit 530, May be provided so as to be closely contacted with the bracket 310. In addition, since the first nut 410 is directly inserted into the insertion portion 530 to prevent the first nut 410 from contacting the outside air, Can be prevented from being transmitted to the anchor 100.

As described above, the protrusion 520 is inserted into the heat insulating material 200 to completely fill the gap between the heat insulating material 200 and the anchor 100 exposed to the outside of the heat insulating material 200, The space between the heat insulating material 200 and the bracket 310 becomes airtight by the heat insulating material 510 so that the outside air penetrates into the gap between the heat insulating material 200 and the anchor 100 exposed to the outside of the heat insulating material 200 Can be obtained.

Meanwhile, the heat insulating pad 500 may have a penetrating portion 540 through which the anchor 100 penetrates. The heat insulating pad 500 may be coupled to the anchor 100 through a screw connection or a fitting method. When the heat insulating pad 500 is coupled with the anchor 100 through a screw coupling method, A screw tab (not shown) for screw connection may be provided on the inner surface of the pad 500.

Since the bracket 310, the end of the anchor 100 and the second nut 420 are directly exposed to the outside air, the outside air is discharged from the bracket 310, the end of the anchor 100, It is possible to cause a problem of being transmitted to the building structure 10 through the door 420.

In order to solve the above problems, the packing unit 110 provided in the anchor 100 will be described. In the following description, only different parts from the above-described embodiment will be described in detail and the same or similar parts will not be described in detail.

4 is a cross-sectional view illustrating a packing structure in a fixing structure of a building exterior material according to an embodiment of the present invention.

As shown in FIG. 4, the fixing structure of the building exterior material according to an embodiment of the present invention may include a packing unit 110.

The packing part 110 is provided to surround the anchor 100 so as to be in contact with a protrusion part 520 of the heat insulating pad 500. The packing part 110 may be provided to cover the entire anchor 100, And may be provided to enclose a part of the anchor 100.

The packing unit 110 may include a resin molded integrally with the anchor 100 through insert injection. As the resin, a resin such as urethane or fiber reinforced plastic (FRP) may be used. The thermal conductivity of a resin such as urethane is much lower than that of a metal material such as stainless steel. Therefore, if the anchor 100 is wrapped in the packing 110, heat conduction through the anchor 100 can be prevented.

The packing unit 110 is provided on the anchor 100 so that the outside air transmitted through the bracket 310, the end of the anchor 100, and the second nut 420 is transferred to the building structure To be transmitted to the display device (10).

Next, a fixing structure of a building exterior material according to another embodiment of the present invention will be described. In the following description, only different parts from the above-described embodiment will be described in detail and the same or similar parts will not be described in detail.

FIG. 5 is a cross-sectional view illustrating a structure of a building exterior member according to another exemplary embodiment of the present invention installed on a building structure. FIG. 6 is a view illustrating a state in which a building exterior member is installed on a structure of a building exterior member according to another exemplary embodiment of the present invention. Fig.

5 to 6, the fixing structure of the building facade according to another embodiment of the present invention includes a plurality of anchors 100, a heat insulating material 200, a supporting member 300, and a nut 400 .

The support member 300 may include a plate 320 coupled to the plurality of anchors 100 fixed to the building structure 10 at the same time. The bracket 310 supporting the building exterior material may be coupled to the plate 320. A plurality of the anchors 100 support the bracket 310 by the plate 320 so that the extrusion molded cement panel 600 shown in FIG 6A or the stone panel 700) can be safely supported.

The extrusion-molded cement panel 600 generally has a weight of about 40 to 60 kg per square meter. The extrusion-molded cement panel 600 is made by mixing cement, silica, pulp, etc., and curing the material at high temperature and high pressure, ≪ / RTI > The weight of the extrusion-molded cement panel 600 has durability and water resistance.

The stone panel 700 may be made of stone such as marble, slate stone, or tile.

The nuts 400 may be provided on both sides of the plate 320 so as to face the both sides of the plate 320 where the anchors 100 intersect.

The first nut 410 provided between the heat insulating material 200 and the bracket 310 determines a position where the plate 320 is fixed to the anchor 100. The heat insulating material 200, The position of the plate 320 can be determined through the first nut 410 in consideration of the separation distance of the plate 320. The second nut 420 fastened at a position close to the end of the anchor 100 may serve to fix the plate 320 to which the fixing position is determined substantially to the anchor 100.

Meanwhile, the plate 320 can be formed so that the bracket 310 coupled to the plate 320 can more safely support the building exterior material.

In this embodiment, the bracket 310 is shown coupled to the plate 320. However, the shape of the plate 320 may be modified so that the bracket 310 may be coupled to the bracket 310 only through the plate 320, As shown in FIG.

The plate 320 will now be described in more detail. In the following description, only different parts from the above-described embodiment will be described in detail and the same or similar parts will not be described in detail.

7 is a perspective view showing a plate of a fixing structure of a building exterior material according to another embodiment of the present invention.

As shown in FIG. 7, the fixing structure of the building facade according to another embodiment of the present invention may include a plate 320.

The plate 320 may include a body portion 321 and a support portion 322.

The body portion 321 is a portion for coupling with the anchor 100 and the bracket 310 and includes a first engaging portion 323 engaging with the anchor 100 and a second engaging portion 322 engaging with the bracket 310. [ And an engaging portion 324. The first coupling portion 323 and the second coupling portion 324 may be formed in the same manner as the first coupling portion 323 and the second coupling portion 324, The number and position of the building can be changed variously according to the situation of the construction site.

The support portion 322 may extend from both sides of the body portion 321 in the direction of the heat insulating material 200.

By providing the support portion 322, the structural rigidity can be increased.

Although the supporting part 322 extends in the direction of the heat insulating material 200 in the present embodiment, the supporting part 322 may be bent from the body part 321 in various forms.

Hereinafter, the heat insulating pad 500 provided in the fixing structure of the building facade according to another embodiment of the present invention will be described. In the following description, only different parts from the above-described embodiment will be described in detail and the same or similar parts will not be described in detail.

FIG. 8 is a cross-sectional view illustrating a fixing structure of a building exterior material according to another embodiment of the present invention, in which a heat insulating pad is provided.

As shown in FIG. 8, the fixing structure of the building facade according to another embodiment of the present invention may include a heat insulation pad 500.

The heat insulating pad 500 may include a heat insulating portion 510, a protrusion 520, and an inserting portion 530.

The opposite side of the heat insulating part 510 is opposed to the heat insulating material 200 and the bracket 310 to seal the space between the heat insulating material 200 and the bracket 310 .

The protrusions 520 may extend a predetermined length in the direction of the heat insulating material 200 from the heat insulating portion 510. The plurality of protrusions 520 extend from the heat insulating part 510 and are formed in the gap between the heat insulating material 200 and the anchor 100 exposed to the outside of the heat insulating material 200, Can be inserted. Therefore, the gap between the heat insulating material 200 and the anchor 100 exposed to the outside of the heat insulating material 200 can be completely filled with the protrusion 520.

In addition, the insertion portion 530 may be provided at a position facing the plurality of protrusions 520, respectively. The plurality of the inserting portions 530 are inserted into the heat insulating pad 500 by the inserting portion 530 so that the heat insulating portion 510 is in contact with the bracket 310 . In addition, since the first nut 410 is directly inserted into the insertion portion 530 to prevent the first nut 410 from contacting the outside air, Can be prevented from being transmitted to the anchor 100.

As described above, the plurality of protrusions 520 are respectively inserted into the heat insulating material 200 to completely fill the gaps between the heat insulating material 200 and the anchors 100 exposed to the outside of the heat insulating material 200, The space between the heat insulating material 200 and the bracket 310 is airtight by the heat insulating part 510 so that the outside air flows between the heat insulating material 200 and the anchor 100 exposed to the outside of the heat insulating material 200 The effect of preventing penetration into the gap can be exhibited.

Next, the packing unit 110 provided in the fixing structure of the building exterior material according to the embodiment of the present invention will be described. In the following description, only different parts from the above-described embodiment will be described in detail and the same or similar parts will not be described in detail.

9 is a cross-sectional view illustrating a packing structure in a fixing structure of a building exterior material according to another embodiment of the present invention.

As shown in FIG. 9, the fixing structure of the building exterior material according to another embodiment of the present invention may include a packing part 110.

The packing unit 110 may include a plurality of protrusions 520 and a plurality of protrusions 520 to surround the anchors 100 so as to cover the entirety of the anchors 100, (Not shown).

The packing unit 110 may include a resin molded integrally with the anchor 100 through insert injection or the like. As the resin, a resin such as urethane or fiber reinforced plastic (FRP) may be used. The thermal conductivity of a resin such as urethane is much lower than that of a metal material such as stainless steel. Therefore, if the anchor 100 is wrapped in the packing 110, heat conduction through the anchor 100 can be prevented.

As described above, since the plurality of the anchors 100 are provided with the packing units 110, the outside air transmitted through the brackets 310, the ends of the anchors 100, and the second nuts 420 It is possible to exhibit an effect of preventing transmission to the building structure 10.

Next, a construction method of a building exterior material fixing structure according to an embodiment of the present invention will be described.

10 is a flowchart showing a construction method of a building exterior material fixing structure according to an embodiment of the present invention.

10, a method of constructing a building exterior fixing structure according to an embodiment of the present invention includes a step S110 of fixing an anchor 100 to a building structure 10, a step S110 of fixing the anchor 100 to the building structure 10, A step S120 of inserting the anchor 100 into the anchor 100 and a step S130 of fastening the nut 400 to the anchor 100 passing through the heat insulating material 200, A step S140 of coupling the support member 300 to the anchor 100 and a step of securing the support member 300 to the anchor 100 by coupling another nut 400 to the anchor 100, (Step S150).

The anchor 100 may be inserted through the anchor 100 after the anchor 100 is installed in the building 200. The anchor 100 may be installed in the building 200 before the anchor 100 is installed, And may be provided such that one surface thereof is in contact with the structure 10.

The nut 400 in the step S130 of fastening the nut 400 to the anchor 100 through the heat insulating material 200 may be formed by the first nut 410 and the support member 300 And can determine a position fixed to the anchor 100. [ The nut 400 in the step S150 of fastening the support member 300 to the anchor 100 by fastening another nut 400 to the anchor 100 is inserted into the second nut 420 The anchor 100 may have a function of fixing the support member 300 to which the fixed position is determined, substantially to the anchor 100.

Although not shown in the drawing, the step of joining the heat insulating pad 500 to the anchor 100 before the step (S130) of fastening the nut 400 to the anchor 100 through the heat insulating material 200 As shown in FIG.

Although it is not illustrated in the drawing, when the supporting member 300 is coupled to the anchor 100, the supporting member 300 may be configured such that when supporting the building exterior material to one anchor 100, And coupling the bracket 310 to the anchor 100 to support the building exterior material by coupling the bracket 310 to the anchor 100. The bracket 310 may be coupled to the plate 320 by having the plate 320 coupled to the plurality of the anchors 100 at the same time when the building exterior material is supported by the plurality of the anchors 100. [ Attaching the plate 320 to the anchor 100 and fixing the bracket 310 to the plate 320. [

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Those skilled in the art, who understands the spirit of the present invention, can readily suggest other embodiments by adding, changing, deleting, adding, or the like of components within the scope of the same idea, I would say.

10: building structure 100: anchor
200: Insulation material 300: Supporting member
400: Nut 500: Insulation pad

Claims (13)

An anchor having one end inserted into the building structure,
A heat insulating material provided to be in contact with the building structure and through which the anchor passes,
A support member provided on the outer side of the heat insulating material and engaged with the anchor,
And a pair of nuts fastened to the anchors and fixing the support members to the anchors.
The method according to claim 1,
Wherein the support member includes a bracket for supporting the building exterior material in association with the anchor.
3. The method of claim 2,
Wherein the support member includes a plate coupled to a plurality of the anchors when the anchors are provided in a plurality of the anchors and to which the brackets are fixed.
The method of claim 3,
Wherein the plate includes a body portion coupled to the anchor,
And a support portion extending from the body portion to improve the structural rigidity of the plate.
The method according to claim 1,
And a heat insulating pad provided between the heat insulating material and the supporting member to block external air from flowing into the heat insulating material.
6. The method of claim 5,
Wherein the heat insulating pad has a heat insulating portion on both sides thereof abutting against the heat insulating material and the support member,
A protrusion extending from the heat insulating part and inserted into the heat insulating material for a predetermined length,
And an insertion portion provided at a position facing the protrusion and into which the nut is inserted.
The method according to claim 6,
Wherein the anchors are provided to be in contact with the protrusions to cover all or a part of the anchors to block heat transfer through the anchors.
The method according to claim 1,
Further comprising a heat bridge member filled in the anchor holes formed in the building structure to block the heat bridge through the anchor so that the anchor is inserted and fixed.
Fixing the anchor to the building structure,
The method comprising the steps of: (a) inserting one side of the building structure and inserting the anchor;
Tightening a nut to the anchor passing through the heat insulating material,
Coupling a support member to the anchor,
And fixing the support member to the anchor by fastening another nut to the anchor.
10. The method of claim 9,
Further comprising the step of joining the heat insulating pad to the anchor before the step of fastening the nut to the anchor passing through the heat insulating material.
10. The method of claim 9,
Wherein the support member comprises a bracket for supporting the building exterior material in association with the building exterior material.
12. The method of claim 11,
Wherein the support member includes a plate coupled to the plurality of anchors when the anchors are provided in plurality, and to which the brackets are fixed.
13. The method of claim 12,
Wherein coupling the support member to the anchor includes coupling the plate to the anchor,
And fixing the bracket to the plate.

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