KR20090020364A - Remodeled window can be complement the heat insulation performance and soundproofing - Google Patents

Abstract

A remodeling window is provided to improve a heat insulating function and a sound proof function using an existing frame and an existing glass, thereby enabling a constructor to execute a construction simply and promptly. A remodeling window comprises the following units. A main frame includes a first spacer(2a) on both lower sides. A single layer glass(4) is installed in the first spacer of the main frame. An assisting frame(6) is formed in a second spacer(6a). A heat insulating member(14) is inserted between the main frame and the assisting frame. A dehumidification agent control moisture generated in spaces between three layer glasses caused by temperature difference of the inside of a building and the outside of a building.

Description

Remodeled window can be complement the heat insulation performance and soundproofing}

The present invention relates to a remodeling window that can supplement the insulation and sound insulation performance of the existing building windows used as components of the exterior material, and more particularly, to the insulation and sound insulation without removing or discarding the windows of the existing building during remodeling construction Remodeling windows with improved performance.

In general, the improvement of the performance of windows and doors, which are areas where major heat loss and sound leakage occurs, greatly affects energy saving and sound insulation performance due to the overall thermal performance of buildings.

Recently, as the living environment is advanced, the residents who live in existing buildings have increased their desire to improve their living performance. Accordingly, many remodeling works of old buildings have been carried out. In particular, residents are often remodeled according to their circumstances. Recently, there is an urgent need to reduce energy costs due to oil price hikes, and partial remodeling prefers window systems with improved insulation, dew condensation and sound insulation. I prefer to.

By improving the thermal insulation performance in such windows and doors to ensure the thermal comfort of the indoor occupants, and to prevent condensation, and to improve the sound insulation performance for external traffic noise, it can provide a comfortable living space to the user.

On the other hand, most of the traditional windows installed in the old building, as shown in Figure 1, sandwiching the single-layer glass 103 in the spacer 102 formed on both sides of the main frame 101, the spacer 102 and the single-layer glass The sealing material 104 is interposed between the 103 and fixed.

The windows having the above-described structure are very poor in terms of heat insulation and sound insulation performance compared to window systems including heat-blocking spacers and multilayer glass, which are the latest technologies. In addition, in the remodeling work, most exterior materials and interior materials except for the building structure are not reused and are disposed of. In particular, in the case of the windows that make up the exterior materials, most of the buildings were built in the past, which does not satisfy the recently strengthened energy saving standards, and most of them cannot be discarded because they do not meet the internal noise standards for external noise. Situation.

The removal and disposal of windows is not only a waste of national resources in itself, but also requires a great deal of manpower, equipment, and time to remove frames and glass windows, and a lot of time and resources to re-install new windows. There is a wasteful issue.

If there is a technology that can supplement the existing windows, such waste may not occur, but there is a problem in that there is a restriction when remodeling because there is no technology that satisfies the reinforced insulation performance and noise-related laws.

Therefore, the present invention has been proposed to solve the above problems, by providing a system that can additionally attach the ganbong and the laminated glass to the existing main frame, while using the frame and glass that make up the existing windows as it is The purpose of the present invention is to provide a remodeling window that complements the insulation and sound insulation performance to improve the insulation and sound insulation to the extent that the insulation and noise regulations can be satisfied, and to perform the window remodeling work simply and quickly.

In order to achieve the above object, the first embodiment of the present invention, the main frame is formed with a first spacer on both lower sides; A single layer glass provided on the first spacer of the main frame; An auxiliary frame positioned to be in contact with both side surfaces of the main frame, one side portion extending toward the first spacer, and a second spacer formed on an outer surface thereof; A first liver rod installed in the second spacer of the auxiliary frame; A multi-layered glass sandwiched at predetermined intervals to form an internal air layer and to form a triple glass type together with a single layer glass; An insulating member inserted between the main frame and the auxiliary frame to block a thermal bridge; A dehumidifying material embedded in the insulating member for controlling moisture generated in the space between the triple glass due to the indoor and outdoor temperature difference; And a sealing member for sealing each of the first spacer of the main frame, the second spacer of the auxiliary frame, and a sealing member for sealing each of the first stems.

Further, in the second embodiment of the present invention, the length of the auxiliary frame in the above-described first embodiment is reduced, but the second spacer formed in the auxiliary frame is removed, and the first spacer and the auxiliary frame of the main frame are removed. Inserting a second rod, characterized in that the window forming a double glass structure while forming an air layer between the single layer glass and the other single layer glass via the second rod.

According to the features of the present invention as described above, the auxiliary frame and the cover frame is additionally installed on the main frame in which the existing single-layer glass is installed, the insulating member is sandwiched between the main frame and the auxiliary frame, the auxiliary frame is a double layer By fixing glass, the thermal insulation performance can be improved to ensure the thermal comfort of indoor residents, and to prevent condensation, and to improve the sound insulation performance against external traffic noise. Has an effect.

In addition, the huge amount of windows that are dismantled or disposed of can be recycled to prevent the waste of national resources, and because the windows do not have demolition work, the air can be shortened and other economical remodeling can be achieved. Have

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to FIGS. 2 and 3.

The remodeling windows to complement the insulation and sound insulation performance according to the present invention is implemented to improve the insulation and sound insulation by installing an additional subsidiary frame without dismantling or discarding the main frame pipe single-layer glass constituting the existing windows. .

Figure 2 is a cross-sectional view of a window according to the present invention, showing a triple glass type window.

As shown in the figure, in the embodiment of the present invention, the main frame 2 having the first spacers 2a for supporting on both lower sides thereof; A single layer glass (4) provided on the first spacer (2a) of the main frame (2); An auxiliary frame 6 positioned to be in contact with both sides of the main frame 2 and having one side extending toward the first spacer and having a second spacer 6a formed on an outer side thereof; A first rod (8) installed in the second spacer (6a) of the auxiliary frame (6); A multilayer glass (10) inserted into the first interstices (8) at predetermined intervals to form an internal air layer and to form a triple glass type together with the single layer glass (4); A cover frame 12 which covers the main frame 2 and is fixed to both ends of the auxiliary frame 6 to block heat transfer to the room and take care of the interior; An insulation member 14 inserted between each of the main frame 2, the auxiliary frame 6, and the cover frame 12 to block a thermal bridge; A bolt 16 penetrating and fixing the main frame 2, the auxiliary frame 6, and the cover frame 12, respectively; A dehumidifying material (18) embedded in the heat insulating member (14) for controlling moisture generated in the space between the triple glass due to a temperature difference between indoor and outdoor; And a sealing member 20 for sealing a gap between each of the first spacer 2a of the main frame 2, the second spacer 6a of the auxiliary frame 6, and each of the first liver rods 8. do.

In the first embodiment of the present invention configured as described above, the main frame (2) and the single-layer glass (4) constituting the existing window, while maintaining the auxiliary frame 6 and the cover frame ( 12) is added and remodeled into a window of a triple glass structure by installing a multilayer glass on the auxiliary frame (6). Therefore, the triple glass and the heat insulating material can not only reliably block the thermal bridge phenomenon due to the temperature difference between the inside and outside, and also improve the sound insulation.

Next, a second embodiment in which the window of the triple glass type according to the first embodiment of the present invention is changed will be described with reference to FIG. 3, but the same reference numerals are given for the same configuration as the above-described first embodiment.

In this embodiment, the length of the auxiliary frame 6 is reduced, but the second spacer 6a formed in the auxiliary frame 6 is removed, and the first spacer 2a and the auxiliary frame 6 of the main frame 2 are removed. Insert a second liver rod 22 between the), and presents a window forming a double glass structure while forming an air layer between the single layer glass 4 and the other single layer glass 24 via the second liver rod 22. Doing.

In the above structure, the first spacer 2a of the main frame 2 and the auxiliary frame 6 are sealed through the sealing member 20.

Here too, the moisture generated in the space between the glass of the double structure is controlled by the dehumidifying material 18 incorporated in the second liver rod 22.

Insulating member 14 shown in the first and second embodiments of the present invention is made of a polyurethane or polyamide-based material.

Preferably, a heat insulating material made of polyurethane foam is installed between the main frame 2 and the cover frame 12, and a heat insulating material made of polyamide is installed between the main frame 2 and the auxiliary frame 6.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes can be made in the art without departing from the technical spirit of the present invention. It will be clear to those of ordinary knowledge.

1 is a cross-sectional view showing the configuration of a window according to the prior art.

2 is a cross-sectional view showing a window of a triple glass structure as a first embodiment of the remodeling window to complement the heat insulation and sound insulation according to the present invention.

3 is a cross-sectional view showing a window of a double-glass structure as a second embodiment of a first embodiment of a remodeling window for compensating insulation and sound insulation according to the present invention.

Claims (4)

A main frame having first spacers formed on both lower sides thereof; A single layer glass provided on the first spacer of the main frame; An auxiliary frame positioned to be in contact with both side surfaces of the main frame, one side portion extending toward the first spacer, and a second spacer formed on an outer surface thereof; A first liver rod installed in the second spacer of the auxiliary frame; A multi-layered glass sandwiched at predetermined intervals to form an internal air layer and to form a triple glass type together with a single layer glass; An insulating member inserted between the main frame and the auxiliary frame to block a thermal bridge; A dehumidifying material embedded in the insulating member for controlling moisture generated in the space between the triple glass due to the indoor and outdoor temperature difference; And Sealing member for sealing a gap between each of the first spacer of the main frame, the second spacer of the auxiliary frame and the support member Remodeling windows to complement the insulation and sound insulation, including. A main frame having first spacers formed on both lower sides thereof; A single layer glass provided on the first spacer of the main frame; Auxiliary frames installed to be in contact with both sides of the main frame; A second rod installed between the single layer glass and the auxiliary frame; A second single layer glass sandwiched between the second rods to form an air layer between the single layer glass and a double glass type; An insulating member inserted between the main frame and the auxiliary frame to block a thermal bridge; A dehumidifying material embedded in the insulating member for controlling moisture generated in the space between the triple glass due to the indoor and outdoor temperature difference; And Sealing member provided between the first spacer and the single layer glass of the main frame and between the auxiliary frame and the second single layer glass Remodeling windows to complement the insulation and sound insulation, including. The method according to claim 1 or 2, Remodeling windows to cover the main frame is fixed to both ends of the auxiliary frame, to block heat transfer to the interior and to further cover the insulation and sound insulation further comprising a built-in interior. The method of claim 3, wherein Remodeling windows to complement the insulation and sound insulation further comprises a bolted joint for fixing the main frame, the auxiliary frame and the cover frame respectively.

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