KR20150125496A - Insulation structure of fixing windows for building - Google Patents

Abstract

The present invention provides an insulation structure of a fixing window, which can strengthen the function of insulation between an inner frame for supporting the edge of glass and an outer frame and, moreover, an insulation structure of a fixing window which can maintain caulking dignity between the inner frame and the inner surface of glass. The insulation structure of a fixing window for a building is that insertion parts for connecting an insulating material are formed on facing surfaces (each inner side surface) of the inner frame and the outer frame, the upper surface of each of the insertion parts is a glass support, and a connection-type insulating material is installed on the insertion parts of the inner frame and the outer frame installed to face each other. Spaces formed by blocking borders between the inner frame and the insertion part thereof and between the outer frame and the insertion part thereof using partitions function as outer air bags. The insulation structure of a fixing window strengthens insulation without increasing insulating materials using the function of a triple air bag having insulating materials, which are installed between the insertion parts of the inner frame and the outer frame after installation of a fixing window, as a middle air bag. The insulation structure of a fixing window prevents a caulking sealant from becoming depressed by adding a glass insulating plate also for buffering, which removes a gap, between the inner side surface of the inner frame and the inner surface of glass.

Description

{INSULATION STRUCTURE OF FIXING WINDOWS FOR BUILDING}

The present invention relates to a fixed window insulation structure in which an insulating function between an inner frame supporting an edge of a glass and an outer frame is enhanced in forming a fixing window of a building.

As a prior art related to this field, the fixing window disclosed in Japanese Patent No. 12172213 has a structure in which the heat insulating space of the frame is divided into two and insulated in a double manner. Since a portion for partitioning the heat insulating space is thin, the heat insulating effect is insufficient, It is uneconomical that the insulation material filled in each space is excessive.

In order to compensate for the disadvantages of the prior art, a fixing window of the proposed No. 1331205 has an intermediate space formed between an inner frame having a hollow rectangular cross section and an outer frame to insert a middle insulating material, Although the male insulating bar penetrates through the intermediate insulation to fit into the H-shaped section, the insulation effect between the inner frame and the outer frame is enhanced. However, the operation of inserting the female insulation bar and the male insulating bar with the grooves in the middle of the middle insulation is fixed The substantial insulation between the inner frame and the outer frame is not only easy, but it is expected only in the middle insulation, and the thermal insulation bar and the thermal insulation bar are mainly responsible for fixing the intermediate insulation between the inner frame and the outer frame, Since the adiabatic effect is very small, There is room for improvement in the insulation between the inner and outer frames of the window.

The curtain wall of Patent Publication No. 2013-117009, which is likened to a fixing window, includes an inner bracket where the heat insulating element is screwed to the frame between the first and second glass, first to third heat insulating members located outside the inner bracket, Since the parts are required by the brackets, the longitudinal screws for fixing the first to third heat insulating members and the outer brackets to the inner brackets, the double foam gasket mounted between both sides of the second heat insulating member and the end portions of the glass, And the assembly difficulty is also high and it can not be used for a fixed window where the glass is positioned between the inner frame and the outer frame.

Conventional techniques other than the above-described conventional techniques are applied to the fitting portions 3 and 4 formed on the faces of the inner frame 1 and the outer frame 2 as shown in Fig. 1, such as azon, polyamide, etc. The heat insulating effect between the inner frame and the outer frame is insufficient.

On the other hand, the glass bases 6 and 7, which are the upper surfaces of the fitting portions 3 and 4 formed in the inner frame 1 and the outer frame 2, are wider than the glass 8, A relatively wide gap 9 is left between the glass 8 and the inner surface 1a of the inner frame 1 and between the glass 8 and the inner surface 2a of the outer frame 2. [

This gap is a cause of deteriorating the quality of caulking when the sealant (10) for waterproof purpose is solidified and the upper surface is abruptly rested. The inner frame 1, the fitting portion 3, the outer frame 2 and the fitting portion 4 are open-type without a partition. It is insufficient in terms of the effect of heat insulation in which the open fitting portion is left and only the heat insulating material 5 is used to heat the inside and outside frames 1 and 2. [

These problems are to be considered when raising the quality of construction of the caulking at the fixed window where the glass is installed in the inner frame and the outer frame.

Patent No. 1217213 Patent No. 13311205 Patent Publication No. 2013-117009

SUMMARY OF THE INVENTION It is an object of the present invention to provide a fixed window insulation structure which aims at enhancing the heat insulating function between the inner frame and the outer frame supporting the edge of the fixed window glass.

It is another object of the present invention to provide a fixed window insulation structure that will contribute to maintenance of caulking quality by enhancing the heat insulating function between the inner frame and the outer frame.

In order to achieve the above object, a first object of the present invention is to provide a method of manufacturing an image display device, in which a heat insulating member fitting portion is formed on a surface (inner side surface) facing each other in an inner frame and an outer frame, the upper surface of each fitting portion is a glass base, A space formed by partitioning the boundary between the inner frame, the fitting portion, the outer frame and the fitting portion is formed to have an outer airbag function , And a triple airbag functioning as a central airbag between the inner frame and the fitting part of the outer frame after the fixed window is installed. This can be achieved by a fixed window insulation structure in which the heat insulating property is enhanced without the addition of the thermal insulation material.

The second object of the present invention is to provide a heat insulating structure for a fixed window in which a caulked sealant is removed by adding a cushioning glass insulating plate for eliminating gaps between the inner side of the inner frame and the glass, Can be achieved.

In the present invention, the triple airbag formed between the inner frame and the inner frame exhibits an adiabatic strengthening effect that is equivalent to that of the triple airbag, without inserting the heat insulating material into each of the fitting portions.

Further, according to the present invention, the clearance between the inner frame and the glass is eliminated by the glass heat insulating plate for cushioning, and the sealant is easily caulked by the sealant, and the caulked sealant is not sagged or deformed downward, It is effective.

Fig. 1 is a cross-sectional view of a frame of a conventional fixed window in which a connection-type heat insulating material is inserted into a fitting portion of an inner frame and an outer frame
Fig. 2 is an exploded view of an inner and outer frame for a fixed window according to the present invention, and a glass-
Figure 3 is a cross-sectional view of the frame of a finished stationary window of the present invention

2, the inner frame 10 and the outer frame 20, which are rectangular tubular bodies, are provided with a heat insulating member fitting portion 11 (21 A partition 13 is provided at the boundary between the inner side surface of the inner frame 10 and the fitting portion 11 while a partition 23 is formed at the boundary between the inner side of the outer frame 20 and the fitting portion 21 ).

The fitting portions 11 and 21 have the internal spaces S2 and S3 in which the slopes are clogged by the partitioning walls 13 and 23. [

The coupling grooves 15 formed on the upper surface of the fitting portion 11 are formed in the same manner as those of the conventional coupling members 12, It is for installation of common glass insulation panel.

The cushioning and heat insulating material 30 is formed by connecting protrusions 31 and 32 which are selectively connected to the connecting grooves 12 and 22 on both sides of a thermally insulating rectangular pipe made of azon or polyamide, ) Functions as a central airbag for insulation after assembling the fixed window.

The glass heat insulating plate 40 is a flat plate in which a vertical gasket 41 stands on the side of the inner frame 10, and also functions as a buffer against glass. The gasket 41 has an inner side surface 14 above the glass support 11a of the inner frame 10 in the fixed window frame formed by the inner frame 10, the outer frame 20 and the heat insulating material 30, 14) so that the upper end of the gasket 41 can be caulked in a proper amount of sealant so as not to exceed the height of the inner side surface 14 do.

A linear protrusion (42) is formed in the bottom surface of the glass insulating plate (40) in a longitudinal direction of the glass insulating plate. The linear protrusion (42) is fitted to the coupling groove (15) in a rail - fitting manner.

3, the inner frame 10, the heat insulating material 30 and the outer frame 20 are arranged in a line-by-line manner and the left connecting protrusion 31 of the heat insulating material 30 is inserted into the connecting groove 12 of the inner frame 10. [ And the right connection protrusion 32 of the heat insulating material 30 is fitted to the connection groove 22 of the outer frame 20 to have the framework of the fixed window frame.

Next, a glass heat insulating plate 40 serving as a cushioning is provided on the upper surface of the fitting portion 11 (21) placed on the same horizontal line. The glass heat insulating plate 40 is fixed on the inner frame 10 by fitting the tip end of the projection 42 into the engaging groove 15 of the fitting portion 11 and fitting it in the form of a rail.

The outer surface of the gasket 41 is in close contact with the inner side surface 14 of the inner frame 10 so that no gap is left. The upper end of the gasket (41) does not exceed the height of the inner side surface (14).

The glass 50 is placed on the buffer heat insulating glass plate 40 and the inner surface of the glass 50 is fixed by caulking 60 to the glass portion of the inner frame 10 where the upper end of the inner side surface 14 touches . On the side of the outer frame 20, the gasket 70 is used to fix the outer surface of the glass.

The fitting portion 11 of the inner frame 10 having the space S2 formed by the partitioning portion 13 is formed on the inward side of the closed space S1 of the existing insulating material 30 in the thus installed fixing window, The fitting portion 21 of the outer frame 20 having the space S3 formed by the partition 23 is arranged in a row in a row.

Heat to be discharged from the inside to the outside according to the triple airbag function by cooperation of the respective spaces S1, S2, and S3, and heat to be transmitted from the outside to the inside can be reliably blocked do.

Therefore, the heat insulating structure of the stationary window of the present invention is much simpler than that of the conventional stationary window as described above, so that the construction is easy and the cost is greatly reduced.

The gasket of the glass insulation plate eliminates gaps between the inner frame and the inner surface of the glass, so it is easy to seal with a sealant, the sealant does not come off (sink) or deform, and the sealant hardens as it was in the initial stage of construction.

10: inner frame
11, 21:
12, 22: connection groove
13,23: Partition
20: outer frame
30: Insulation
31, 32:
40: Glass insulation board combined with buffer
S1: Space (of insulation 30)
S2: Space (in the inner frame side fitting portion)
S3: Space (on the side of the outer frame side)

Claims (2)

(Inner side surfaces) facing each other in the inner frame and the outer frame, and the upper surface of each of the fitting portions is a glass base, and a heat insulating material is provided on the fitting portion of the inner frame and the outer frame, However,
A space formed by partitioning the boundary between the inner frame, the fitting portion thereof, the outer frame and the fitting portion thereof is made to function as an outer airbag, and a space of the heat insulating material provided between the inner frame and the fitting portion of the outer frame Is a triple airbag unit with a central airbag, which enhances thermal insulation without additional insulation.
The insulated fixed window insulating structure according to claim 1, further comprising a buffer insulating glass plate having a gasket for removing a gap between an inner surface of the inner frame and an inner surface of the glass.

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