KR20160116616A - Thermal break device for steel framed balcony and balcony construction method using the same - Google Patents

Abstract

The present invention relates to a heat bridge blocking device which is installed between a balcony and a building main body and, more specifically, to a heat bridge blocking device which is easily applied to a balcony having a steel frame structure and enables efficient shear resistance against a vertical load applied to the balcony by forming a shear resistance element. The heat bridge blocking device for a balcony having a steel frame structure according to a proper embodiment of the present invention comprises: an insulation block which is formed with a pair of coupling plates parallel to each other and an insulation material formed between the pair of coupling plates; a tensile bond body whose both ends protrude outward from to the pair of coupling plates by penetrating the upper part of the insulation block; a compression coupling body whose both ends protrude to the outside of the pair of coupling plates by penetrating the lower part of the insulation block; a shear bridge which is combined with the upper part of one side of the coupling plate in the insulation block at one end and is combined with the lower part of the other side of the coupling plate at the other end; and shear protrusions which protrude toward the balcony in the coupling plates in the balcony.

Description

Technical Field [0001] The present invention relates to a thermal bridge device for a steel frame,

The present invention relates to a bridge bridge between a balcony and a building body. More particularly, the present invention relates to a bridge bridge of a steel structure type, which is easy to apply to a balcony of a steel structure type, And a balcony construction method using the same.

Thermal bridge refers to a part where thermal insulation is not continuous at a connection part of a building structure and this part becomes a thermally weak part and a lot of heat and energy is lost to the outside. The energy loss occurs in the building due to the occurrence of thermal bridges, and the area where the thermal bridges occur causes the surface temperature to become low, causing condensation, thereby damaging the interior material of the building, thereby degrading the value of the building.

Thermal break is to prevent the thermal bridge phenomenon. It is designed to prevent the insulation bridge from being discontinuous at the site where heat bridging occurs, So that the thermal bridge is blocked.

By blocking the indoor and outdoor thermal bridges, it is possible to reduce the indoor heating energy by improving the heat insulation effect, and thus the CO ₂ generation amount can be reduced. In addition, it is possible to suppress the occurrence of condensation and mold caused by the thermal bridging phenomenon, thereby improving the quality of the indoor air. Of course, it is possible to maintain the value of the structure by preventing damaging of the interior material caused by condensation. .

Thermal bridges are often found in areas where the structure of a building changes and where materials change. Particularly, in the case of balconies, structural bridges and material bridge bridges all occur. Since it accounts for 15 ~ 30% of the total heat bridging phenomenon of the building, it is necessary to shut off the bridging of the balcony in order to prevent the heat bridging.

As a technology to be a background of the present invention, Patent Registration No. 10-0969244 'Structural Insulation for Thermal Bridging' (Patent Document 1) is known. This patent discloses a heat insulating material having a rectangular panel-shaped heat insulating material in which upper and lower block fixing holes are formed in an upper and lower two rows, a fireproof plate attached to a bottom surface of the heat insulating material, upper and lower reinforcing bars disposed through the respective block fixing holes, And a concrete block for fixing the upper and lower reinforcing bars and the inclined reinforcing bars to the block fixing holes of the heat insulating material, wherein the reinforcing bars are joined to the upper and lower reinforcing bars corresponding to each other do.

However, the heat insulation interception structure proposed by this patent has a problem that the upper and lower reinforcing bars and the oblique reinforcing bars are all composed of reinforcing bars, so that a large amount of heat is lost to the outside due to the high heat conductivity of the reinforcing bars. Since the vertical force acting on the slab is applied to the structural member by the shear force, effective shear resistance elements are required for the thermal bridge members constituted between the building body and the slab. However, there is a problem that such shear resistance elements are not constituted there was.

Patent Registration No. 10-0969244 'Structural Insulation for Thermal Bridging'

It is an object of the present invention to solve the problems of the prior art described above, and it is an object of the present invention to provide a method and apparatus for preventing the occurrence of thermal bridging between a balcony and a building body to prevent insulation damage of a building, And a method of constructing a balcony using the same.

Especially, it is applicable to the balcony of the steel structure type, and it provides the bending moment to resist the bending load generated on the balcony and the shear resistance element to resist the shear force, .

According to a preferred embodiment of the present invention, there is provided a thermal bridge breaking device for a steel structure balcony, comprising: a heat insulating block formed of a heat insulating material formed between a pair of coupling plates parallel to each other and a pair of coupling plates; A tensile bonding body which penetrates the upper part of the heat insulating block and has both ends protruded outside the pair of coupling plates; A compression bonding body passing through a lower portion of the heat insulating block and having both ends protruded outside the pair of coupling plates; A shear bridge in which one end is coupled to the upper portion of the one coupling plate and the other end is coupled to the lower portion of the other coupling plate in the heat insulating block; And a shear projection projecting toward the balcony side on the balcony side coupling plate.

At this time, the tensile and compressive members are formed of threaded bolts and can be coupled through a washer and a nut, respectively, inside and outside of a pair of coupling plates.

On the other hand, the tensile bonded body and the compression bonded body may be formed of a stainless steel material.

Here, the shear bridge may be constituted by a steel bar having a circular or rectangular cross section.

On the other hand, the heat insulating block may be further provided with both ends of a reinforcing sleeve made of a round or square steel pipe and a filling material filled in the steel pipe, connecting the pair of engaging plate central portions.

Here, the filler may be composed of ECC (Engineered Cementitious Composite).

According to another preferred embodiment of the present invention, there is provided a method of constructing a steel structure balcony using a heat bridge device, comprising the steps of: (a) providing a heat insulating block formed between a pair of parallel plates and a pair of plates, A compression bonding body having both ends thereof penetrating through the lower portion of the heat insulating block and protruding outward from the pair of coupling plates; And a shear protrusion protruding toward the balcony on the balcony-side coupling plate, wherein the shear protrusion is coupled to the lower end of the first coupling plate and the other end is coupled to the lower coupling plate. (b) installing a tensile joint body and a compression joint body on the structure main body side to the structure main body; (c) constructing a balcony steel structure by bolting a bolt hole at a corresponding position of the tensile joint and the compression joint, and joining the end plate having the hook hole at the corresponding position of the projecting protrusion to the end of the H-shaped steel; (d) temporarily inserting the tensile bonding body and the compression bonding body into the bolt holes of the end plate, inserting the shearing protrusions into the mounting grooves of the end plate, and temporarily holding the balcony steel structure by the shearing protrusions protruding from the mounting grooves; And (e) joining the washer and the nut to the compression joint and the tension joint inserted in the bolt hole.

The thermal bridge breaking device for a steel structure balcony according to the present invention is formed by forming a tensile steel bar and a compression steel bar with stainless steel having a low thermal conductivity to prevent a thermal bridging phenomenon caused by a steel bar having a high thermal conductivity, Energy can be reduced, and the amount of CO ₂ generated thereby can be reduced. In addition, it is possible to prevent mold, condensation and corrosion caused by heat bridging from occurring in the structural body and the finishing material, thereby solving the visual problem and also preventing economic loss by preventing durability degradation.

In particular, the thermal bridge breaking device for a steel structure balcony according to the present invention is effectively applied to a balcony of a steel structure type, and a shear resistance element called a shear bridge and a shear protrusion is constituted to effectively shear resistance against a vertical load acting on the balcony It is effective.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate exemplary embodiments of the invention and, together with the description, serve to explain the principles of the invention, Shall not be construed as limiting.
FIG. 1 is an exploded perspective view of a heat bridge breaking device for a steel structure balcony according to the present invention, FIG. 2 is an assembled perspective view, and FIG. 3 is a side view.
FIG. 4A is a perspective view of a steel structure body applied to a steel structure body for a steel structure balcony according to the present invention, and FIG. 4B is a sectional view applied to the body of an RC structure.
5 is a cross-sectional view for explaining mechanical behavior of a bridge bridge for a steel structure balcony according to the present invention.
6 is a cross-sectional view of a bridge bridge for a steel structure balcony according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto.

FIG. 1 is an exploded perspective view of a bridge bridge for a steel structure balcony according to the present invention, FIG. 2 is a combined perspective view, and FIG. 3 is a side view.

The heat bridge breaking device for a steel structure balcony according to the present invention comprises a pair of coupling plates 11 and 11 parallel to each other and a heat insulating material 12 (not shown) formed between the pair of coupling plates 11 and 11 A tensile bonding body 20 which penetrates the upper part of the heat insulating block 10 and has both ends protruded outside the pair of coupling plates 11 and 11; A compression bonding body 30 protruding outward from the pair of coupling plates 11 and 11 and a compression bonding body 30 having one end joined to the upper portion of one coupling plate 11 and the other end connected to the lower portion of the other coupling plate 11 And a shear protrusion (50) protruding toward the balcony side to the balcony side coupling plate (11).

The heat insulating block 10 is a means for blocking heat bridging between the building body and the balcony. The pair of coupling plates 11 and 11 provide a coupling surface on the balcony side and the building body side, Through holes 111 are formed. 1 to 3 and the tension coupling 20 and the compression joint 30 and the shear bridge 40 are connected to a pair of coupling plates 11 and 11, It is preferable to foam the foamable heat insulating material known in the art such as a urethane foam or the like by filling it with polyurethane, a glass surface, a rock surface, polystyrene, or the like between a pair of coupling plates 11,

The tensile joint 20 and the compression joint 30 can be formed by threaded bolts which are respectively formed by means of a tensile and compressive resistance against deflection occurring in a balcony constituted by a cantilever, ) Through the washer (W) and the nut (N).

The material of the tensile bonding body 20 and the compression bonding body 30 is made of stainless steel having the lowest thermal conductivity among metals. This is because, even if heat bridging is cut off by the heat insulating block 10, a large amount of heat is lost to the outside air due to a high thermal conductivity of the steel when the tensile and compression bonded bodies are formed of steel, Is formed of stainless steel having the lowest thermal conductivity.

The shear bridge 40 connects the upper portion of the one side coupling plate 11 and the lower side of the other side coupling plate 11 by means of a tensile force against the shear force generated in the balcony constituted by the cantilever, 11). 1 to 3, the shear bridge 40 is shown as a steel rod having a circular cross section, but the present invention is not limited thereto and may be configured in various ways such as a steel bar having a rectangular cross section.

The shear protrusion 50 is a means for providing a hanging protrusion for convenience of installation in installing a balcony of a steel structure type and at the same time reinforcing the shear resistance force with the shear bridge 40, do.

FIG. 4A is a perspective view of a steel structure body applied to a steel structure body for a steel structure balcony according to the present invention, and FIG. 4B is a sectional view applied to the body of an RC structure.

4B, a balcony of a steel structure type can be applied to a building body of a steel-frame structure as shown in FIG. 4A, and also to a building body of an RC structure as shown in FIG. 4B.

In order to construct a balcony, first, a bridge bridge for a steel structure balcony according to the present invention is connected to a building main body. 4A, when the bridge bridge according to the present invention is applied to a steel frame structure, a bolt hole is drilled in a steel frame structure at a balcony installation position, and a tensile joint body 20 of the bridge bridge according to the present invention, (30) is inserted and the washer and the nut are fastened to each other. 4B, when the bridge bridge according to the present invention is applied to an RC structure, the bridge bridge is first installed in an RC structure at a balcony installation position. The installation can be performed by various methods known in the art. As a preferable example, when the RC structure is formed, the tensile bonding body 20 of the thermal bridge breaking device and the compression bonding body 30 are preliminarily assembled in the formwork, . ≪ / RTI > At this time, it is preferable to form the RC structure side tension joint body 20 and the compression joint body 30 longer than the balcony side tension joint body 20 and the compression joint body 30 in order to firmly couple the RC structure to the heat bridge interrupter.

The bridge is connected to the building body by a steel frame type balcony. The bridge of the present invention is for installing on the main body of the building by suppressing the generation of heat bridge by the balcony having the steel structure type. The balcony having the steel structure type can be composed of various steel members, The structure of the end plate 110 to be joined to the H-shaped steel 100 and the H-shaped steel end most commonly used in the steel frame member will be described as a representative example of the steel structure type balcony.

A pair of coupling plates 11 and 11 of a bridge structure for a steel structure balcony according to the present invention provide a coupling surface on the side of the balcony and the side of the building body. The coupling plate 11, in which the shearing protrusions 50 are formed, And is coupled to the end plate 110 joined to the end of the section steel 100. In order to engage, the end plate 110 should be pre-drilled with a hook 120 at a position corresponding to the bolt hole and the protrusion. The shear protrusion 50 is inserted into the hooking groove 120 so that the tension coupling body 20 and the compression coupling body 30 are inserted into the bolt hole and coupled with the washer W through the nut N.

The shearing protrusions 50 inserted into the hooking grooves 120 before the tight coupling between the tension member 20 inserted into the end plate 110 and the washer W of the compression assembly 30 and the nut N are completed, And is configured to protrude from the hooking groove 120 to enable temporary mounting of the balcony structure when the balcony is constructed.

5 is a sectional view for explaining the mechanical behavior of the bridge bridge for a steel structure balcony according to the present invention.

As shown in FIG. 5A, the tensile bonding body 20 and the compression bonding body 30 according to the present invention are effectively applied to tensile and compressive forces, respectively, with respect to a bending moment acting on the connection between the balcony and the structure body due to the load generated in the balcony Resist. The present invention also constitutes an effective shear resistance element. As shown in FIG. 5B, the shearing force acting on the connecting portion between the balcony and the structure body due to the load generated on the balcony, that is, the shearing force against which the heat bridge device according to the present invention must resist, Directional tensile force to prevent relative slippage between the both members, and the transfer projection 50 also contributes to such shear resistance.

6 is a cross-sectional view of a bridge bridge for a steel structure balcony according to another embodiment of the present invention.

6, when the strength bridging device for a steel structure balcony according to the present invention requires strength reinforcement in consideration of the weight of the balcony and the weight of the balcony, a central portion of the pair of coupling plates 11, A further reinforcing sleeve 60 may be provided. The presence of the reinforcing sleeve 60 depends on the calculation of the structure. The reinforcing sleeve 60 is composed of a round or square steel pipe 61 and a filler 62 filled in the steel pipe. As the filler 62, it is preferable to use a high-performance insulating material to reinforce the thermal bridging capability of the thermal bridging device. For example, fiber reinforced concrete such as ECC (Engineered Cementitious Composite) or foam concrete can be used.

As described above, according to the present invention, tensile steel and compressed steel are formed of stainless steel having a low thermal conductivity, so that heat bridging is prevented from occurring by reinforcing steel having high thermal conductivity, thereby improving the heat insulation effect of the building, And the amount of CO ₂ generated thereby can be reduced. In addition, it is possible to prevent mold, condensation and corrosion caused by heat bridging from occurring in the structural body and the finishing material, thereby solving the visual problem and also preventing economic loss by preventing durability degradation.

In particular, the thermal bridge breaking device for a steel structure balcony according to the present invention is effectively applied to a balcony of a steel structure type, and a shear resistance element called a shear bridge and a shear protrusion is constituted to effectively shear resistance against a vertical load acting on the balcony It is effective.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the above teachings. will be. The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

10: Insulation block 11: Coupling plate
111: coupling plate through-hole 12: insulation
20: tensile binder 30: compression bond
40: shear bridge 50: shear projection
60: reinforcing sleeve 61: steel pipe
62: Filler 100: H-shaped steel
110: end plate 120:

Claims (7)

A heat insulating block (10) composed of a pair of coupling plates (11, 11) parallel to each other and a heat insulating material (12) constituted between a pair of coupling plates (11, 11); A tensile bonding body 20 penetrating the upper portion of the heat insulating block 10 and having both ends protruded outside the pair of coupling plates 11 and 11; A compression joint body 30 penetrating a lower portion of the heat insulating block 10 and having both ends protruded outside the pair of coupling plates 11 and 11; A shearing bridge 40 in which one end is coupled to the upper portion of the one coupling plate 11 and the other end is coupled to the lower portion of the other coupling plate 11 in the heat insulating block 10; And a shear protrusion (50) protruding toward the balcony side to the balcony side coupling plate (11). The method according to claim 1,
The tension member 20 and the compression joint member 30 are formed of threaded bolts and are respectively coupled to the inner and outer surfaces of the pair of coupling plates 11 and 11 through the washer W and the nut N Bridges for steel framed balconies. The method according to claim 1,
Wherein the tensile bonding body (20) and the compression bonding body (30) are formed of a stainless steel material. The method according to claim 1,
The shear bridge (40)
And a steel bar having a circular or rectangular cross section. The method according to claim 1,
In the heat insulating block 10,
Wherein both ends of a reinforcing sleeve (60) composed of a round or square steel pipe (61) and a filler (62) filled in the steel pipe are further provided so as to connect the center of the pair of engaging plates (11, 11) Bridges for structural balconies. 6. The method of claim 5,
The filler (62)
And an ECC (Engineered Cementitious Composite). (a) a heat insulating block 10 composed of a pair of coupling plates 11 and 11 parallel to each other and a heat insulating material 12 formed between the pair of coupling plates 11 and 11; A tensile bonding body 20 penetrating the upper portion of the heat insulating block 10 and having both ends protruded outside the pair of coupling plates 11 and 11; A compression joint body 30 penetrating a lower portion of the heat insulating block 10 and having both ends protruded outside the pair of coupling plates 11 and 11; A shearing bridge 40 in which one end is coupled to the upper portion of the one coupling plate 11 and the other end is coupled to the lower portion of the other coupling plate 11 in the heat insulating block 10; And a front end protrusion (50) projecting toward the balcony side to the balcony side coupling plate (11);
(b) installing a tensile joint body (20) on the structure main body side and a compression joint (30) on the structure main body;
(c) A bolt hole is punched at a position corresponding to the tensile joint body 20 and the compression bonding body 30, and the end plate 110, in which the hooking groove 120 is drilled at the position corresponding to the projecting projection 50, Joining the ends to form a balcony steel structure;
(d) The tension member 20 and the compression member 30 are inserted into the bolt hole of the end plate 110 and the shear protrusion 50 is inserted into the latch groove 120 of the end plate 110, Temporarily fixing the balcony steel frame structure by the shear protrusion (50) protruding from the frame (120); And
(e) joining the washer (W) and the nut (N) to the compression bonding body (30) and the tension coupling body (20) inserted into the bolt hole. Way.

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