KR20160012754A - Fixing structure for a outside panel of building - Google Patents

Abstract

According to an aspect of the present invention, there is provided a fixing structure for a building exterior material, comprising: an anchor which penetrates a heat insulating material provided on an outer surface of the building structure and joins the building structure; A plate coupled to the anchor and configured to abut one surface of the heat insulating material; A bracket coupled to the plate through a separate coupling member to support the building exterior material; A support plate coupled to the plate and having one end abutted against the building structure to support the plate; A heat bridge cap disposed to surround the anchor and the end of the support to prevent heat transfer through the end; And a packing for preventing heat transfer through the first engaging portion and the second engaging portion, the first engaging portion engaging the plate or the anchor and the plate, and the second engaging portion engaging the support and the plate, Member.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fixing structure of a building exterior material,

The present invention relates to a fixing structure of a building exterior material, and more particularly to a building exterior material which can prevent heat loss, reduce energy loss of a building, prevent condensation, and perform a role as a passive house To a fixed structure.

Generally, anchors such as set anchors are mainly used as a means for fixing a building exterior material such as stone to a building structure.

The set anchor includes an anchor bolt having a thread formed at one end thereof and a head portion whose other end is cone-shaped, as in " Korean Patent Laid-Open Publication No. 10-2012-0035976 (Apr. And an anchor bolt is screwed into a thread of the anchor bolt so that the anchor bolt is spirally transferred in accordance with a tightening action, And a tightening nut for widening in the radial direction from the section improvement.

The set anchor is inserted into an anchor mounting hole drilled on a wall surface of a set anchor, which is a pair of the anchor cap, the anchor bolt and the tightening nut, and tightening action of the tightening nut fastened to the anchor bolt The anchor bolt is projected to the outside of the wall surface, and one end of the anchor cap corresponding to the head of the anchor bolt is raised in the radial direction from the incline by the pressing action of the head portion of the inclined and enlarged anchor bolt And is completely fixed to the outer wall of the building.

Meanwhile, recently, as the cost of fossil fuel such as coal and oil has rapidly increased, there is an increasing interest in passive houses that can minimize energy waste in designing and building buildings. 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 having increased heat shielding efficiency, when the conventional fixing means as described above is used, heat loss to the outside due to the fixing means is generated, The problem has still been raised.

On the other hand, in order to improve the insulation performance of the building, insulation material is installed inside the exterior material of the building.

Therefore, when fixing the exterior material of the building to the exterior wall of the building, it is necessary to install the insulation material on the outer wall when the concrete is laid or to insulate the insulation material with the adhesive or the fixing pin, then cut off the installation part of the anchor bolt, Such as a bracket.

However, since the metal anchor bolts are installed using fixing means such as brackets, the heat insulating material is damaged and a finishing process is required. In addition, the heat from the outside of the building is transferred to the set anchor and the bracket, .

In addition, when metal anchor bolts and brackets are used, it takes a lot of time to install the exterior material of the building.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems and it is an 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 act as a passive house, will be.

Another object of the present invention is to provide a fixing structure of a building exterior material and a fixing material construction method which can facilitate installation work of a building exterior material.

According to an aspect of the present invention, there is provided a fixing structure for a building exterior material, comprising: an anchor which penetrates a heat insulating material provided on an outer surface of the building structure and is coupled to the building structure; A plate coupled to the anchor and configured to abut one surface of the heat insulating material; A bracket coupled to the plate through a separate coupling member to support the building exterior material; A support plate coupled to the plate and having one end abutted against the building structure to support the plate; A heat bridge cap disposed to surround the anchor and the end of the support to prevent heat transfer through the end; And an insert is injected into the front surface of the plate or the first engaging part where the anchor and the plate are engaged and the second engaging part where the supporter and the plate engage with each other to prevent heat transfer through the first engaging part and the second engaging part, And a packing member.

The packing member may include a first heat insulating portion disposed on one side of the plate facing the heat insulating material, and a second heat insulating portion positioned on the other side of the plate.

The packing member may include a third heat insulating portion connecting the first heat insulating portion and the second heat insulating portion, and the third heat insulating portion provided on the second heat insulating portion may include a screw tab on the inner side.

The third adiabatic part of the second engaging part may be omitted so that the supporter and the plate are directly butted against each other when the packing member is insert-injected onto the entire surface of the plate.

Wherein the anchor includes an inner nut fastened to an inner side of the anchor and an outer nut fastened to an end of the anchor, and the first heat insulating part surrounds the inner nut and protrudes toward the inner nut, And an auxiliary heat insulating portion for preventing heat transfer through the heat insulating portion.

The bracket may be coupled to the anchor and provided in front of the plate.

Wherein the packing member provided in the first coupling portion extends from the second heat insulating portion to a third coupling portion where the anchor and the bracket are engaged and prevents heat transfer through the third coupling portion, And a fifth heat insulating portion extending from the heat insulating portion and having one side abutted against the bracket.

The plate may be provided with another anchor at a position where the support is provided to improve the supportability of the plate.

The thermal bridge cap may be formed through injection.

The thermal bridge cap may have a screw thread to be screwed into the anchor or the end of the support.

The thermal bridge cap may be formed through silicon or epoxy filling.

The packing member may include a flow preventing mold that prevents the silicon or epoxy from flowing down when filling and forms the shape of the heat bridge cap.

And a heat bridge member filled in the anchor installation hole formed in the building structure to block the heat bridge through the anchor so that the anchor is inserted and fixed.

According to the fixing structure of the building facade according to the present invention, the packing member coupled with the anchor and the heat bridge cap cut off the heat bridge through the anchor fixed to the building structure, thereby reducing the energy loss of the building.

In addition, the resin provided in the anchor can minimize the transfer of heat from the outside to the inside of the building by the anchor, thereby preventing the condensation phenomenon.

In addition, the building using the fixing structure of the building exterior material of the present invention has an advantage that it can serve as a passive house.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view and a front view of a plate with a fixing structure of a building exterior according to an embodiment of the present invention coupled to a building structure; FIG.
2 is a sectional view of a packing member of a fixing structure of a building exterior material according to an embodiment of the present invention;
3 is a cross-sectional view and a front view of a plate in which a fixing structure of a building envelope to which a variation of the packing member shown in Fig. 1 is applied is coupled to the building structure;
FIG. 4 is a cross-sectional view of a fixing structure of a building exterior material according to another embodiment of the present invention coupled to a building structure and a front view of the plate. FIG.
5 is a sectional view of a packing member of a fixing structure of a building exterior material according to another embodiment of the present invention.
Fig. 6 is a cross-sectional view and a front view of a plate in which a fixing structure of a building exterior material to which a modification of the packing member shown in Fig. 4 is applied is coupled to the building structure;
7 is a cross-sectional view and a front view of a plate in which a fixing structure of a building exterior material according to another embodiment of the present invention is coupled to a building structure;
FIG. 8 is a cross-sectional view illustrating a modification of a heat bridge cap according to an embodiment of the present invention; FIG.

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

FIG. 1 is a cross-sectional view and a front view of a plate in which a fixing structure of a building exterior material according to an embodiment of the present invention is coupled to a building structure, FIG. 2 is a cross- Fig.

1 and 2, an anchor 30, a plate 40, a bracket 50, a support 60, a packing member 100, And a thermal bridge cap 200.

The anchor 30 may be inserted into and fixed to the anchor installation hole 11 provided in the building structure 10 through the heat insulating material 20 provided on the outer surface of the building structure 10. The anchor installation hole 11 is filled with a thermal bridge member 12 to prevent heat transfer through the anchor 30 inserted into the anchor installation hole 11. [ As the thermal bridge member 12, a resin which is filled in the anchor installation hole 11 and 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 anchor 30 includes an inner nut 31 fastened to the inner side of the anchor 30 and an outer nut 32 fastened to the end of the anchor 30, And can be fixed to the anchor 30 by fastening the nut 31 and the external nut 32.

The plate 40 may be coupled to the anchor 30 through a coupling hole 41 formed in the plate 40 so as to be in contact with one surface of the heat insulating material 20. At least one or more coupling holes 41 may be formed in the plate 40 to allow the bracket 50 and the support 60 to be coupled to the plate 40. Here, the heat insulating material 20, which is in contact with the plate 40, serves to determine the position of the plate 40 and does not play a structural role. In this embodiment, the plate 40 has a rectangular shape. However, the plate 40 may have various shapes such as a polygonal shape including a circular shape.

The bracket 50 supports a building exterior material (not shown) and can be coupled to the plate 40 through a separate coupling member 51.

The support frame 60 is coupled with the plate 40 and passes through the heat insulating material 20 so that one end of the support frame 60 can be brought into contact with the building structure 10. The support base 60 may be provided below the anchor 30 on the plate 40 so that the lower portion of the plate 40 is supported by the building structure 10. Accordingly, the plate 40 can be prevented from being sagged by its own weight or an external impact or force when the building exterior material (not shown) is detached or the anchor 30 It is possible to exhibit an effect of preventing deformation or breakage of the metal plate.

The packing member 100 is insert-injected into the front surface of the plate 40, that is, the front and rear surfaces, the side surface, and the inner surface of the fitting hole 41, 1 through the first engaging portion 42 and the second engaging portion 43 to which the plate 60 and the plate 40 are coupled. The packing member 100 is provided only in the first engaging portion 42 and the second engaging portion 43 so that heat transfer through the first engaging portion 42 and the second engaging portion 43 . The first engaging portion 42 and the second engaging portion 43 may be formed so that the anchor 30 or the support 60 intersects or abuts against the plate 40, Up to the periphery within a certain radius of the losing portion.

The packing member 100 includes a first heat insulating part 110 located on one side of the plate 40 facing the heat insulating material 20 and a second heat insulating part located on the other side of the plate 40 And a third heat insulating part 130 connecting the first heat insulating part 110 and the second heat insulating part 120 to each other. The first and second heat insulating portions 110 and 120 surround the first and second heat absorbing portions 42 and 43, It is possible to prevent the anchor 30 or the support 60 from directly abutting against the plate 40 to prevent heat transfer to the anchor 30 or the support 60 through the plate 40 .

At this time, as shown in FIG. 2 (a), the third heat insulating part 130 provided in the second engaging part 43 may have a screw tab 131 on the inner side. In the case of the packing member 100 provided in the first engaging portion 42, the packing member 100 can be inserted through the internal nut 31 and the external nut 32 without the screw tab 131. [ And can be fixed to the plate (40). On the other hand, in the case of the packing member 100 provided to the second engaging part 43, the support base 60 is not provided with the coupling means such as the inner nut 31 and the outer nut 32 The packing member 100 can not be fixed to the support base 60. Therefore, the screw tab 131 is provided on the inner side of the third heat insulating part 130 provided in the second engaging part 43 to prevent direct contact between the support stand 60 and the plate 40 At the same time, the packing member 100 provided on the second engaging part 43 can be fixed to the plate 40. The screw tab 131 is provided on the packing member 100 provided on the second engaging part 43. The screw tab 131 is formed on the first engaging part 42, The coupling force between the packing member 100 and the plate 40 provided on the first coupling portion 42 can be further improved.

The first heat insulating part 110 may include an auxiliary heat insulating part 111 as shown in FIG. 2 (b). The auxiliary heat insulating part 111 may surround the inner nut 31 fastened to the anchor 30 and protrude toward the inner nut 31. Therefore, even if a part of the anchor 30 fixed to the building structure 10 is exposed to the outside of the heat insulating material 20, the internal nut 31 and the anchor 30 So that external heat can be prevented from being transmitted to the building structure 10. In addition, since the auxiliary heat insulating portion 111 is formed to penetrate the heat insulating material 20 to a certain depth, the inner space including the internal nut 31 wrapped by the auxiliary heat insulating portion 111 is separated from the outside The effect of preventing heat transfer can be exerted more effectively. In the present embodiment, the auxiliary heat insulating part 111 is provided in the packing member 100 provided in the first coupling part 42, And may be provided on the packing member 100 provided in the part 43. FIG.

Next, the packing member 100 injected into the front surface of the plate 40 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. 3 is a cross-sectional view and a front view of a plate in which a fixing structure of a building exterior material to which a modification of the packing member shown in FIG. 1 is applied is coupled to a building structure.

As shown in FIG. 3, the packing member 100 having the fixing structure of the building exterior material according to the embodiment of the present invention may be insert-injected into the front surface of the plate 40. The packing member 100 may be provided in the coupling hole 41 through which the coupling member 51 coupled to fix the bracket 50 to the plate 40 passes.

In addition, when the packing member 100 is insert-injected into the front surface of the plate 40, the third heat insulating portion 130 provided in the second engaging portion 43 may be omitted. The reason for this is that the heat transfer through the second engaging portion 43 can be blocked by the packing member 100 injected into the front surface of the plate 40 and the third insulator 130 And the plate 40 is made of a metal rather than a screw tap 131 of the metal plate. Accordingly, the packing member 100 inserts into the front surface of the plate 40 and the third heat insulating part 130 provided in the second fitting part 43 is omitted, 43 to prevent heat transfer and improve the bonding force between the support 60 and the plate 40.

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. 4 is a cross-sectional view and a front view of a plate, in which a fixing structure of a building exterior material according to another embodiment of the present invention is coupled to a building structure, and FIG. Fig.

4 and 5, a fixing structure of a building exterior material according to another embodiment of the present invention is configured such that the bracket 50 can be engaged with the anchor 30 such that the bracket 50 is disposed in front of the plate 40 have.

4 (a), the packing member 100 provided in the first coupling portion 42 is connected to the anchor 30 and the bracket (not shown) at the second thermal insulation portion 120, And a fourth heat insulating part 140 extending to the third joint part 52 to which the first and second heat sinks 50 and 50 are coupled.

The packing member 100 provided in the first engaging portion 42 includes a fifth heat insulating portion 150 extending from the fourth heat insulating portion 140 and having one side abutted against the bracket 50, .

Therefore, the heat of the outside air can be prevented from being transmitted through the anchor 30 and the third engaging part 52.

4 (b), the first and second heat insulating parts 110 and 120 and the first and second heat insulating parts 110 and 120, The third heat insulating part 130 is integrated and the fourth heat insulating part 140 and the fifth heat insulating part 150 are integrated to provide ease of workability when the packing member 100 is installed.

Next, the packing member 100 injected into the front surface of the plate 40 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. 6 is a cross-sectional view and a front view of a plate in which a fixing structure of a building exterior material to which a modification of the packing member shown in FIG. 4 is applied is coupled to a building structure;

As shown in FIG. 6, the packing member 100 of the fixing structure of the building exterior material according to another embodiment of the present invention may be insert-injected into the front surface of the plate 40.

4 (b), the first and second heat insulating portions 110 and 120 and the first and second heat insulating portions 140 and 150 are formed in a substantially rectangular shape, It may be more effective in terms of workability to be separately manufactured and installed in the third heat insulating part 130.

However, the fourth heat insulating part 140 and the fifth heat insulating part 150 are not limited thereto, and as shown in FIG. 4 (a), the first heat insulating part 110, (120) and the third heat insulating part (130).

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.

7 is a cross-sectional view and a front view of a plate in which a fixing structure of a building exterior material according to another embodiment of the present invention is coupled to a building structure.

As shown in FIG. 7, the fixing structure of the building facade according to another embodiment of the present invention may include another anchor 30 at a position where the support frame 60 is installed.

As described above, by fixing the upper and lower portions of the plate 40 to the building structure 10, the building exterior material (not shown) can be more firmly coupled to the building structure 10. Therefore, the effect of preventing the building exterior material (not shown) from being separated from the building structure 10 due to the self weight or external impact of the building exterior material (not shown) can be exerted.

Although the packing member 100 is inserted and injected into the first engaging portion 42 in the present embodiment, the packing member 100 is insert-injected into the front surface of the plate 40 .

The bracket 50 is connected to the plate 40 through the anchor 30 and the bracket 50 is connected to the plate 40 through the coupling member 51. However, ≪ / RTI >

Hereinafter, the thermal bridge cap 200 according to an embodiment of the present invention will be described in 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.

8 is a cross-sectional view illustrating a modified example of a heat bridge cap according to an embodiment of the present invention.

As shown in FIG. 8, the fixing structure of the building facade according to an embodiment of the present invention may include a thermal bridge cap 200.

The heat bridge cap 200 may be formed through injection as shown in FIG. 8 (a). In order to improve the effect of blocking the heat transfer, one side of the packing member 100 is connected to the side of the thermal bridge cap 200, As shown in FIG.

8 (b), the heat bridge interception cap 200 may include a thread 210 that can be screwed into the end of the anchor 30 inside the heat bridge interception cap 200 .

Therefore, the anchor 30 is further tightened by the thread 210, so that the anchor 30 is fastened to the building exterior material (not shown) by an external impact or by the vibration of the building structure 10 The effect of preventing the inner nut 31 and the outer nut 32 from being released and the coupling force of the anchor 30 from being lowered can be exerted.

8 (c), the heat bridge cap 200 may be formed by filling the synthetic resin 220.

At this time, the packing member 100 includes a flow preventing frame 160 that forms the shape of the thermal bridge cap 200 to prevent the synthetic resin 220 from flowing down when the synthetic resin 220 is filled. can do.

Accordingly, the fluidity of the external nut 32 can be prevented by filling the synthetic resin 220, so that an external impact or a vibration of the building structure 10 can be applied to the exterior of the building (not shown) It is possible to prevent the inner nut 31 and the outer nut 32 from being loosened and the coupling force of the anchor 30 from being lowered. As the synthetic resin 220, silicone or epoxy may be used.

In this embodiment, the thermal bridge cap 200 is provided on the anchor 30, but the thermal bridge cap 200 may also be installed on the support bridge 60.

In addition, although not shown in the drawing, the heat bridge interception cap 200 may be manufactured through an insert injection at an end of the anchor 30. Therefore, after the anchor 30 is installed, a separate work for preventing the heat from being transmitted through the end of the anchor 30 is not needed, so that the workability can be improved.

While the present invention has been described in connection with the preferred embodiments, 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 20: insulation
30: anchor 40: plate
50: bracket 60: support
100: packing member 200: thermal bridge cap

Claims (12)

An anchor which penetrates a heat insulating material provided on an outer surface of the building structure and joins with the building structure;
A plate coupled to the anchor and configured to abut one surface of the heat insulating material;
A bracket coupled to the plate through a separate coupling member to support the building exterior material;
A support plate coupled to the plate and having one end abutted against the building structure to support the plate;
A heat bridge cap disposed to surround the anchor and the end of the support to prevent heat transfer through the end; And
A first coupling part for coupling the plate or the anchor to the plate, a second coupling part for coupling the support and the plate, and a packing for preventing heat transfer through the first coupling part and the second coupling part, A fixing structure of a building exterior material including a member;
The method according to claim 1,
Wherein the packing member has a first heat insulating portion located on one surface of the plate which is brought into contact with the heat insulating material,
And a second heat insulating portion located on the other surface of the plate.
3. The method of claim 2,
Wherein the packing member has a third heat insulating portion connecting the first heat insulating portion and the second heat insulating portion,
And the third heat insulating portion provided in the second coupling portion is provided with a screw tab on the inner side thereof.
The method of claim 3,
Wherein the third insulator provided in the second fitting portion is omitted so that the support plate and the plate are directly butted against each other when the packing member inserts into the front face of the plate.
3. The method of claim 2,
Wherein the anchor includes an inner nut fastened to an inner side of the anchor and an outer nut fastened to an end of the anchor,
Wherein the first heat insulating portion includes an auxiliary heat insulating portion for covering the inner nut and protruding toward the inner nut to prevent heat transfer through the inner nut and the anchor.
The method according to claim 1,
Wherein the bracket is coupled to the anchor and is provided in front of the plate.
6. The method of claim 5,
The packing member provided in the first coupling portion may include a fourth heat insulating portion extending from the second heat insulating portion to a third coupling portion of the anchor and the bracket to prevent heat transfer through the third coupling portion,
And a fifth heat insulating part extending from the fourth heat insulating part and having one side to be in contact with the bracket.
The method according to claim 1,
Wherein the plate is provided with another anchor at a position where the support is provided to improve the supporting force of the plate.
The method according to claim 1,
Wherein the thermal bridge cap is formed by injection molding.
9. The method of claim 8,
Wherein the thermal bridge cap has a screw thread to be screwed into the anchor or the end of the support.
The method according to claim 1,
The heat bridge cap is formed through filling of the synthetic resin,
Wherein the packing member includes a flow preventing mold for preventing the synthetic resin from flowing down when filling and forming a shape of the heat bridge cap.
The method according to claim 1,
Further comprising a heat bridge member filled in an anchor hole formed in the building structure to block the heat bridge through the anchor so that the anchor is inserted and fixed.

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