KR101892667B1 - window system having insulation structure - Google Patents

Abstract

A window system having a heat insulating structure according to the present invention comprises: an inner frame having a rectangular cross section and having a first engaging part on one side; A second engaging portion disposed forwardly away from the inner frame and symmetrical to the first engaging portion toward the first engaging portion; An outer frame detachably coupled to a portion of the second coupling portion opposite to the first coupling portion; A finishing frame slidably and detachably coupled to an opposite side of a portion of the outer frame where the second engaging portion is engaged; A pair of upper and lower glass panels vertically symmetrical and spaced apart from each other by a spaced space between the inner frame and the outer frame; Wherein the upper glass plate and the lower glass plate are disposed between the first glass plate and the second glass plate so that the upper and lower glass plates are spaced apart from each other, A heat insulating composite member having a plurality of heat insulating partition walls mutually offset in an upper portion and a lower portion; And a heat insulating gasket provided between the inner frame and the multiple glass panel and between the outer frame and the multiple glass panel so as to be mutually symmetrical up and down and left and right so as to simultaneously block the flow of air and the flow of heat, .
Thus, it is possible to provide a window system having a heat insulating structure which can prevent heat exchange between the indoor and outdoor heat by a relatively simple structure, thereby improving the heat insulating performance, preventing condensation, and reducing energy consumption.

Description

[0001] Window system having insulation structure [0002]

The present invention relates to a window system having a heat insulating structure, and more particularly, to a window system having a curtain wall structure with improved support structure and insulation performance against a glass load, in which a heat insulating material and an aluminum reinforcement To a window system having a heat insulating structure capable of greatly improving the heat insulating performance while maintaining support for a glass load.

As the buildings are becoming high-rise or ultra-high-rise buildings, it is required to reduce the weight of the buildings and reduce the weight.

Such lightweight construction of high-rise buildings leads to reduction of construction costs by shortening the construction period, reducing the materials used, and shortening the time, and the most common way of realizing this is quick and easy construction of curtain walls.

A curtain wall is a non-proof wall of a building that protects the occupants from the outside environment without supporting the load of the building. The horizontal load caused by the vertical load applied to the building and the wind or earthquake is supported by the frame made of column and beam, where the curtain wall acts as a curtain to protect the occupants in the building from the outside environment.

Such a curtain wall is formed by vertically and horizontally arranging a curtain wall structure and sandwiching the glass wall between the curtain wall structures, and the method of surrounding the exterior wall surface of the building with the glass wall and the curtain wall window is performed by using a concrete or other outer finish And the use thereof is gradually increasing since it is relatively inexpensive as compared with finishing with a material.

Recently, energy efficiency rating certification of buildings has been implemented by applying national policies such as energy conservation and efficiency to buildings. Conventional curtain walls are increasingly restricted in terms of energy as applied to modern buildings where the ratio of windows is increased .

An example of a window system according to the prior art for solving such a problem is disclosed in Korean Patent Registration No. 10-1217766 (registered on December 26, 2012, hereinafter referred to as Patent Document 1).

In the frame structure for a curtain wall window structured by an outer frame and an inner frame, the inner frame is configured to have at least two coupling ends at one end of the outer frame, And the upper section section is formed integrally with a pair of vertically extending extension parts bent by the engagement part formed by forming an opening having an upper end, and is formed with a "C" Respectively, and the heat insulating frame is provided at its upper portion with an engaging groove corresponding to the engaging end and having the same number, but constitutes an intermediate portion and both side projecting portions formed by constituting the engaging groove, and the both side surfaces are provided with the " And the heat insulating frame is inserted through the side surface of the inner frame, and the heat insulating frame Frame is disclosed for curtain walls, characterized in that only fissure structure consisting of a structure bonded to the insulating frame through an opening of the inner frame.

Therefore, since the outer frame and the inner frame are separated by a single heat insulating frame without using a large amount of heat insulating frames, even if the outside heat or cold air is transmitted through the outer frame, the outer frame and the inner frame are prevented from being transmitted to the inner frame, It is possible to prevent a condensation phenomenon caused by the temperature inside and outside from occurring in the inner frame.

However, in the window system of the related art as described above, the outer frame and the inner frame of the curtain wall, which have relatively poor thermal performance, are heated by the heat of conduction conducted through the outer frame and the inner frame using only one heat insulating frame There is a limit. In addition, since the frame supporting the load of the glass is close to the outside air, the weight of the glass can be supported, but the heat insulating performance is greatly deteriorated. When the additional glass is installed, the load of the glass is concentrated to the outside of the frame There is a problem that the thickness of the frame becomes thick due to a problem.

Korea Patent Registration No. 10-1217766 (registered on December 26, 2012)

SUMMARY OF THE INVENTION An object of the present invention is to provide a window system having a heat insulating structure capable of preventing heat exchange between the indoor and outdoor heat by a relatively simple structure to improve heat insulating performance, prevent condensation, and reduce energy consumption .

It is another object of the present invention to provide a window system having a heat insulating structure capable of preventing deterioration of heat insulating performance while maintaining sufficient support for a glass load.

Another object of the present invention is to provide a window system having a heat insulating structure capable of uniformly dispersing a load without being concentrated on the outside of a frame even if a glass panel is additionally provided so that the thickness of the frame can be kept slim without being thickened.

In order to achieve the above object, a window system having a heat insulating structure according to the present invention comprises: an inner frame having a square cross-section hollow and having a first coupling portion on one side; A second engaging portion disposed forwardly away from the inner frame and symmetrical to the first engaging portion toward the first engaging portion; An outer frame detachably coupled to a portion of the second coupling portion opposite to the first coupling portion; A finishing frame slidably and detachably coupled to an opposite side of a portion of the outer frame where the second engaging portion is engaged; A pair of upper and lower glass panels vertically symmetrical and spaced apart from each other by a spaced space between the inner frame and the outer frame; Wherein the upper glass plate and the lower glass plate are disposed between the first glass plate and the second glass plate so that the upper and lower glass plates are spaced apart from each other, A heat insulating composite member having a plurality of heat insulating partition walls mutually offset in an upper portion and a lower portion; And a heat insulating gasket provided between the inner frame and the multiple glass panel and between the outer frame and the multiple glass panel so as to be mutually symmetrical up and down and left and right so as to simultaneously block the flow of air and the flow of heat, .

Here, it is preferable that the heat insulating composite member is made of a synthetic resin material, and the heat insulating gasket is made of a metal material or a synthetic resin material having a modulus of elasticity smaller than that of the heat insulating composite member.

The first engaging portion includes a first engaging portion to which the one end of the heat insulating composite member is engaged and engaged and a first projecting jut protruding outward of the first engaging portion, A second protruding protrusion formed to protrude outwardly of the second fitting portion, and a pair of fitting protrusions formed at a rear center portion of the outer frame, .

According to the present invention, it is possible to provide a window system having a heat insulating structure capable of improving heat insulation performance, preventing condensation, and reducing energy consumption by preventing mutual exchange of heat between indoor and outdoor by a relatively simple structure have.

Further, it is possible to provide a window system having a heat insulating structure which can prevent deterioration of the heat insulating performance while maintaining sufficient support for the glass load.

In addition, it is possible to provide a window system having a heat insulating structure capable of maintaining the thickness of the frame without being thickened by allowing the load to be evenly dispersed without being concentrated outside the frame even when the glass panel is further provided.

1 is a perspective view showing an example of a window system having a heat insulating structure according to the present invention,
2 is a side sectional view of the "A" region of Fig. 1,
Fig. 3 is an exploded perspective view of Fig. 2,
Fig. 4 is an enlarged view of the heat insulating composite member of Fig. 3,
FIG. 5 is a view showing another embodiment of FIG. 2. FIG.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIGS. 1 and 2, the window system having a heat insulating structure according to the present invention includes an inner frame 100 having a square hollow section and a first coupling portion 110 formed on one side thereof, A second coupling portion 200 spaced forward from the frame 100 and symmetrical to the first coupling portion 110 toward the first coupling portion 110 and a second coupling portion 200 symmetrical with respect to the first coupling portion 110 toward the first coupling portion 110, An outer frame 300 detachably coupled to the opposite side of the portion facing the coupling portion 110 and a finishing frame 300 detachably coupled to the opposite side of the portion of the outer frame 300 where the second coupling portion 200 is coupled, A pair of upper and lower glass panels 500 vertically and symmetrically spaced apart from each other by a spaced space between the inner frame 100 and the outer frame 300 and a pair of upper and lower glass panels 500 between the first engaging portion 110 and the second engaging portion 200, And the lower part are spaced apart from each other, and the spaced spaces between the upper part and the lower part are composed of a heat insulating composite member 600 having a plurality of heat insulating partitions 610 mutually staggered at upper and lower parts to form a heat insulating air layer 605 in an upper and lower zigzag The inner frame 100 and the glass panel 500, the outer frame 300, and the glass panel 500, and are mutually symmetrical up and down and left and right to simultaneously block the flow of air and the flow of heat And an insulating gasket (700).

Accordingly, it is possible to provide a window system having a heat insulating structure capable of improving heat insulation performance, preventing condensation, and reducing energy consumption by preventing mutual exchange of heat between indoor and outdoor by a relatively simple structure.

As shown in FIGS. 2 and 3, the inner frame 100 is provided on the indoor side with respect to the multiple glass panel 500, and has a rectangular hollow cross section whose cross section is long in the horizontal direction, And the first engaging portion 110 protrudes toward the outdoor side, that is, toward the second engaging portion 200. The first engaging portion 110 is formed to protrude toward the outdoor side.

3, the first coupling part 110 includes a first fitting part 111 to which one end of the heat insulating composite member 600 is fitted and fitted, and a second fitting part 111 which is protruded to the outside of the first fitting part 111 And includes a first protruding protrusion 113 formed thereon.

Accordingly, the heat insulating composite member 600 can be easily and easily detachably coupled between the first coupling portion 110 and the second coupling portion 200, and at the same time, the coupling state can be firmly and stably maintained.

3, the first protrusion 113 protrudes from the upper and lower sides of the first engaging portion 110 and the intermediate portion of the first engaging portion 110. In the inner frame 100, A gasket fitting groove 150 in which a heat insulating gasket 700 is detachably fitted is formed in an upper portion and a lower portion of the first coupling portion 110 in a direction facing the first coupling portion 300.

3, the second coupling portion 200 includes a second fitting portion 210 to which the other end of the heat insulating composite member 600 is fitted and coupled, and a second fitting portion 210 which is protruded to the outside of the second fitting portion 210 And a pair of fitting protrusions 310 formed at a rear center portion of the outer frame 300 are inserted into and coupled to the inside of the supporting protrusions 230.

Accordingly, the heat insulating composite member 600 can be easily detachably coupled between the first engaging portion 110 and the second engaging portion 200, and at the same time, the joined state can be maintained firmly and stably, The outer frame 300 can be easily and easily detachably coupled to the second engaging part 200 by the support part 230.

3, the second protruding step 220 protrudes from the upper and lower sides of the second engaging part 200 and the middle part of the second engaging part 200, A gasket fitting groove 150 in which a heat insulating gasket 700 is detachably fitted is formed at the upper and lower portions of a pair of fitting protrusions 310 in a direction facing the battery case 100.

As shown in FIG. 3, the outer frame 300 has a cross-section having a height equal to the height of the short side of the inner frame 100, and is long in the longitudinal direction, like the inner frame 100, The upper and lower pair of fitting protrusions 310 extend rearward and are fitted into the supporting portions 230 of the second fitting portion 200. The upper and lower ends of the fitting protrusions 310 are provided with detachable groove portions 410 The engaging portion 320 is formed to have a curved shape and a depressed shape corresponding to the shape of the attaching / detaching groove 410.

As shown in FIGS. 2 and 3, the finishing frame 400 has a substantially 'C' shape in cross section and is long in the longitudinal direction like the outer frame 300, and extends in the front of the outer frame 300 The attaching / detaching groove 410 is formed at the upper and lower ends of the outer frame 300 so as to surround the outer frame 300 and includes protrusions protruding from the inner portion of the outer frame 300 so that the recessed portion of the outer frame 300 is inserted. do.

The inner frame 100, the second coupling portion 200, the outer frame 300, and the finishing frame 400 according to the present invention are all preferably made of aluminum-containing material. So that a large amount can be simultaneously produced at a time.

Accordingly, since the weight of the window system having the heat insulating structure according to the present invention is made lighter, the construction can be more easily performed, the concentration of the load after the construction can be mitigated, and the manufacturing cost can be reduced.

As shown in Fig. 2, the multi-glass panel 500 is provided with at least two glass plates spaced apart from each other by a predetermined distance. That is, an air layer is formed between the glass plates of each of the multiple glass panels 500, thereby securing a certain degree of heat insulation.

On the other hand, airtightness is maintained between the multi-glass panel 500 and the inner frame 100 approaching thereto, and between the multi-glass panel 500 and the outer frame 300 and the closing frame 400, And is finished with a silicone finishing material 510 so as to have a function.

As shown in FIGS. 3 and 4, the heat insulating composite member 600 is inserted into the first fitting portion 111 formed at the upper portion of the first fitting portion 110 at one end of the upper portion, Is inserted into the second fitting part 210 formed on the upper part of the second fitting part 200 and inserted into the first fitting part 111 formed at the lower part of the first fitting part 110 at one end of the lower part, Is inserted into the second fitting portion 210 formed at the lower portion of the second coupling portion 200 to block the direct transmission of heat between the first coupling portion 110 and the second coupling portion 200 The space formed by the upper and lower zig-zags between the plurality of heat insulating partitions 610 which are mutually staggered at the upper part and the lower part becomes the heat insulating air layer 605 so that the heat flow is blocked as much as possible and at the same time, In the air layer 605, the adiabatic partition walls 610 are close to or spaced from each other, Respectively.

Accordingly, it is possible to prevent deterioration of the heat insulating performance while maintaining sufficient support for the glass load, and at the same time, to provide a heat insulation structure capable of securing life safety by mitigating impact transmitted to the window even if vibration is transmitted by an earthquake or the like Can be provided.

In one embodiment of the present invention, the heat insulating composite member 600 is made of a synthetic resin material having elasticity and heat insulating properties such as polyamide, polyethylene, polystyrene, polyurethane and the like, And is preferably made of a metal material having a small elastic modulus or a synthetic resin material.

Accordingly, even if a vibration load is externally applied, the amount of deformation of the heat insulating gasket 700 becomes larger than that of the heat insulating composite member 600, so that most of the vibration is absorbed first, so that the vibration transmitted to the heat insulating composite member 600 is minimized So that not only insulation performance but also seismic performance can be provided.

As shown in FIG. 3, the heat insulating gasket 700 is horizontally and vertically sloped on one side and the gasket fitting groove 150 of the inner frame 100 and the outer frame 300 is provided with a heat insulating The heat insulating composite member 600 is interposed between the gasket 700 and the heat insulating composite member 600 so that the space where the heat insulating composite member 600 is installed is isolated from other spaces, And the heat insulating gaskets 700 provided at four positions in the upper, lower, left, and right diagonal directions are provided symmetrically with respect to the other heat insulating gaskets 700 provided at the opposite positions.

Accordingly, it is possible to provide a window system having a heat insulating structure capable of maintaining the thickness of the frame without being thickened by allowing the load to be evenly dispersed without being concentrated outside the frame even when the glass panel is additionally provided.

5, a space provided with the heat insulating composite member 600 between the upper and lower pairs of the multiple glass panels 500 between the inner frame 100 and the second coupling portion 200 A pair of upper and lower heat insulating reinforcing members 950 are symmetrically provided so as to be separated from other spaces.

Accordingly, the heat insulating reinforcing member 950 can more effectively perform the heat insulation together with the heat insulating composite member 600 and the heat insulating gasket 700, and can further reinforce the durability against the impact caused by the earthquake or the like.

5, the heat insulating reinforcing member 950 is made of a synthetic resin material having some degree of elasticity such as polyamide, polyethylene, polystyrene, polyurethane or the like as in the case of the heat insulating composite member 600, And a reinforcing partition wall 951 extending in the direction of the short side of the inner frame 100 at a rear side thereof, having a cross-sectional shape horizontally transverse to the inner frame 100 from the inner frame 100.

To this end, a pair of first reinforcing protrusions 120 (not shown) are formed on the upper and lower portions adjacent to the portion where the first engaging portion 110 is formed in the inner frame 100 so that one side end of the pair of heat- A pair of second reinforcing protrusions 240 protrude rearward so that the other ends of the pair of heat-insulating reinforcing members 950 are fitted in the upper and lower ends of the second coupling portion 200, respectively, Respectively.

Accordingly, the heat insulating reinforcing member 950 can be easily detachably coupled between the inner frame 100 and the second engaging part 200 by sliding.

Thus, according to the present invention, it is possible to provide a window system having a heat insulating structure that can be easily carried out and can reduce the construction cost.

While the invention has been described in connection with what is presently considered to be practical exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

100: inner frame 110:
111: first fitting portion 113: first protruding jaw
200: second coupling portion 210: second fitting portion
220: second protruding jaw 230:
300: outer frame 310:
400: Finishing frame 500: Multi-glass panel
600: a heat insulating composite member 610: a heat insulating partition
700: Insulation gasket

Claims (3)

An inner frame having a rectangular cross section and formed with a first engaging portion on one side;
A second engaging portion disposed forwardly away from the inner frame and symmetrical to the first engaging portion toward the first engaging portion;
An outer frame detachably coupled to a portion of the second coupling portion opposite to the first coupling portion;
A finishing frame slidably and detachably coupled to an opposite side of a portion of the outer frame where the second engaging portion is engaged;
A pair of upper and lower glass panels vertically symmetrical and spaced apart from each other by a spaced space between the inner frame and the outer frame;
Wherein the upper glass plate and the lower glass plate are disposed between the first glass plate and the second glass plate so that the upper and lower glass plates are spaced apart from each other, A heat insulating composite member having a plurality of heat insulating partition walls mutually offset in an upper portion and a lower portion; And
A heat insulating gasket provided between the inner frame and the multiple glass panels and between the outer frame and the multiple glass panels so as to be mutually symmetrical up and down and left and right so as to simultaneously block the flow of air and the flow of heat;
/ RTI >
The heat insulating composite member is made of a synthetic resin material,
Wherein the heat insulating gasket is made of a metal material or a synthetic resin material having a modulus of elasticity smaller than that of the heat insulating composite member,
Wherein the first engaging portion includes a first engaging portion to which the one end of the heat insulating composite member is fitted and engaged and a first protruding jaw formed to protrude outward of the first engaging portion,
The second engagement portion includes a second engagement portion in which the other end of the heat insulating composite member is engaged and engaged, a second projecting jut protruding outward from the second engagement portion, And a support portion to which the projection is fitted inward,
A pair of upper and lower heat insulating reinforcing members are symmetrically provided between a pair of upper and lower glass panels between the inner frame and the second coupling unit so that the space provided with the heat insulating composite member is isolated from other spaces,
Wherein the heat insulating reinforcing member is further provided with a reinforcing partition wall having a cross-sectional shape horizontally transverse to the inner frame at the second coupling portion, the reinforcing partition wall extending from the rear side along the short side direction of the inner frame,
A pair of first reinforcing protrusions are formed to protrude forward so that one side end portion of the pair of the heat insulating reinforcing members is fitted to the upper and lower portions adjacent to the portion where the first coupling portion is formed in the inner frame, And a pair of second reinforcing projections are projected rearward so that the other end portions of the pair of heat insulating reinforcing members are respectively fitted to the upper and lower ends of the portion. delete delete

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