KR101277683B1 - The window structure of high airtight and insulating performance - Google Patents

Abstract

The present invention is to solve the problems of the prior art, the window frame frame to support the rail stably while preventing heat conduction through the frame of the window frame, double sealing between the rail and the window frame frame to ensure airtightness In addition to ensuring the durability of the airtight means while ensuring a perfect, the object is to provide a window structure that can minimize the energy loss by the air insulation layer therebetween.
To this end, the present invention is to completely separate the inner and outer frames of the window frame frame to be coupled by a heat cross-linking material, and consists of a double sealing means having a close contact means and an air insulation layer between the window frame frame and the window frame.

Description

The window structure of high airtight and insulating performance

The present invention relates to a window structure including a rail in a window frame, and a roller in a lower part of the window frame to improve airtightness and insulation performance of an unseen window which opens and closes a window as the roller rolls along the rail.

As aluminum and stainless steel are not rusted easily, they are easy to maintain and durable, and airtightness and opening and closing are light and easy to process.The windows and windows of apartments and offices are made of metal such as aluminum or stainless steel. It is common to construct.

On the other hand, the window frame and the window frame of the structure of the window occupies 10-30% of the total, the metal material has a high thermal conductivity is the main passage of energy loss, and also the air between the window frame and the window frame to the outside air Is introduced and causes a problem of lowering the room temperature.

Proposed to solve this problem is the 'insulation window improved heat insulation, airtightness and watertightness' of Patent Application No. 10-2011-0024096 filed March 18, 2011. 1, the window frame is divided into an inner frame 110, an intermediate frame 115, and an outer frame 120, and a first thermal bridge is formed in each frame between the inner frame and the intermediate frame. The barrier member 150 is formed to be spaced apart from each other, and the first thermal cross-linker 160 is filled between the first thermal cross-linker supports, and a bottom portion of the first rail 170 extending vertically is inserted into the first thermal cross-linker. It is supported by the first heat cross-linker, the second heat cross-linker support portion 180 is formed in each frame spaced apart from each other between the outer frame and the intermediate frame, the second heat cross-linker ( 190 is filled, and the bottom of the second rail 200 extending vertically is inserted into the second heat cross-section and is supported by the second heat cross-section. In addition, in order to prevent the flow of air through the rail is characterized in that for mounting the blocking brush (175, 360) on the side of the rail.

This configuration not only prevented heat conduction through the frame of the window frame, but also prevented cold air from entering the room over the rails to some extent. Since the barrier material is supported, damage to the thermal crosslinking material may occur due to long-term load, and the rail may be deformed. In addition, the airflow between the rail and the window frame is prevented with a tightly sealed barrier so that it is not possible to achieve perfect air tightness. The barrier mounted on the rail is always in contact with the window frame regardless of whether the window is opened or closed. There is a problem that the durability is poor.

The present invention is to solve the problems of the prior art, the window frame frame to support the rail stably while preventing heat conduction through the frame of the window frame, double sealing between the rail and the window frame frame to ensure airtightness In addition to ensuring the durability of the airtight means while ensuring a perfect, the object is to provide a window structure that can minimize the energy loss by the air insulation layer therebetween.

According to a preferred embodiment of the present invention for achieving the above object, the window frame frame is a structure in which the outer frame and the inner frame is completely separated by a heat cross-linking material, when the window moves forward to close the window in the direction of travel Adhering means are provided on the window frame and the window frame, respectively, to move at the same time orthogonal to the window frame, and when the window is closed, the double frame structure is formed between the window frame and the window frame with an air insulation layer interposed therebetween. There is provided a window structure provided with sealing means.

According to another preferred embodiment of the present invention, the outer frame and the third rail for installing the insect screen on the outdoor side, and the first gasket support for the installation of the first gasket for airtight on both sides bordering the inner frame and And a first rail installed between the third rail and the first gasket support member, and a heat cross member insert portion formed at a lower portion of the first gasket support member to insert a heat cross member, and the inner frame borders an interior. And a window structure including a second barrier for moving the window frame to the inside of the partition, and an opposite heat cross member insert portion corresponding to the heat cross member insert portion at an interior and exterior end thereof.

According to another preferred embodiment of the present invention, the window frame is provided with a first projection surface and a second projection surface protruding downward on both sides of the window frame so as to have a total shape of the press, the contact means of the first rail A window structure is provided, which comprises first contacting means provided respectively on the indoor side of the lower portion, and an outdoor side of the lower portion of the second rail, and second contacting means provided on the second projection surface.

According to another preferred embodiment of the present invention, the second gasket support is provided on the outdoor side of the lower portion of the first rail, and the indoor side of the lower portion of the second rail, respectively, the sealing means is the first gasket support There is provided a window structure comprising a first gasket respectively provided on both sides, and a second gasket respectively provided on the second gasket support.

According to another preferred embodiment of the present invention, the sealing means is provided with a window structure consisting of a first gasket respectively provided on both sides of the first gasket support, and a second gasket respectively provided on the first protruding surface.

The present invention can completely prevent the conduction of heat through the window frame frame while the rail is firmly supported against deformation of the window. In addition, the present invention can be expected to have an effect that can completely improve the durability and insulation of the airtight member while preventing the heat loss due to convection by completely blocking the air permeated through the window frame.

1 is a cross-sectional view showing the configuration of the prior art.
2 is a front view showing a window of the present invention.
3 is a conceptual view of the working relationship between the first contact means and the second contact means.
4A and 4B are cross-sectional views taken along the line AA ′ of FIG. 2, and FIG. 4A shows both windows open and FIG. 4B shows both windows closed.
5A and 5B are cross-sectional views taken along line BB ′ of FIG. 2, and FIG. 5A shows when the window moves to one side, and FIG. 5B shows when both windows are closed.
6 is a cross-sectional view showing another embodiment of the present invention.
7 is a detailed sectional view of the window frame frame.

Hereinafter, with reference to the accompanying drawings an embodiment of the present invention will be described in detail. However, in describing the present invention, when the technical concept of the present invention is obscured or obscured by describing the known configuration in detail, the description of the known configuration will be omitted.

7 shows a detailed cross section of the window frame of the present invention. The window frame frame of the present invention has a structure in which the outer frame 10 and the inner frame 20 each having a rail are completely separated.

The outer frame 10 has a third rail 11 for installing the insect repellent screen on the outdoor side, and the first gasket support for installing the airtight first gasket 13 on both sides while forming a boundary with the inner frame 20. 12, a first rail 14 installed between the third rail 11 and the first gasket support 12, and a lower portion of the first gasket support 12, the heat cross-linking material (30) It consists of a thermal cross-linking material insertion portion 15 for inserting. In addition, a lower side of the first rail 14 is formed with a second gasket support 16 for installation of the second gasket 17 in the outdoor side direction and the first contact means 18 in the interior direction (inner frame direction). ) Is attached.

The inner frame 20 has a partition wall 21 forming a boundary with an interior, a second rail 22 for moving the window frame inwardly of the partition wall 21, and an insert portion of the thermal barrier material at an outdoor end. Opposite side of the thermal cross-linking material insertion portion 25 corresponding to (15). In addition, the first contact means 28 is attached to the lower side of the second rail 22 in the outdoor direction (outer frame direction) and the second gasket support 26 for installing the second gasket 27 in the indoor direction. Is formed.

The second gaskets 17 and 27 of the outer frame 10 and the inner frame 20 are not formed on the first and second rail sides, but as shown in FIG. 6, the first protruding surfaces of the window frames 50 and 60. It can also be formed in (52, 62). The first contact means 18 and 28 are installed at positions corresponding to the second contact means 58 and 68 of the window, which will be described later.

The outer frame 10 and the inner frame 20 insert the heat cross-cutting material 30 into the heat cross-cutting material inserting portion 15 of the outer frame 10 and the heat cross-cutting material inserting portion 25 of the inner frame 20. Are integrally combined. The thermal cross-linking material 30 prevents leakage of energy in the room to the outside by blocking heat conduction between the outer frame 10 and the inner frame 20. The thermal cross-linking material 30 may be any material having a very low thermal conductivity and high strength and durability.

A roller 51 for rolling on the first rail 14 is installed at the lower portion of the outer window frame 50 placed in the outer frame so that the window can be opened and closed smoothly. The bottom end of the outer window frame 50 is provided with a first protruding surface 52 and a second protruding surface 53 protruding downward to both sides, and have a overall P shape, the length of the outer window frame 50. Second contact means 58 is provided on the second protruding surface 53 near both ends in the direction so as to correspond to the first contact means 18.

Similarly, a roller (not shown) for rolling on the second rail 22 is installed at a lower portion of the inner window frame 60 placed in the inner frame, and bottom ends of the inner window frame 60 protrude downward from both sides. The first protruding surface 62 and the second protruding surface 63 are provided to have an overall shape of П. The first close contact with the second protruding surface 63 near both ends in the longitudinal direction of the inner window frame 60 is performed. The second contact means 68 is provided so as to correspond to the means 28.

At least one of the first contacting means 18 and 28 and the second contacting means 58 and 68 is configured in a trapezoidal shape in which the thickness increases toward the direction of closing the window. For example, when the first contact means is formed in a trapezoidal shape, the second contact means may be formed in any one of an inverted trapezoid shape, a protrusion shape, and a roller. In addition, the contact means is installed at the front and rear of the window frame, and approximately at the end and the center portion of the window frame frame so as to correspond to this when the window is closed. This shape allows the window to move simultaneously in a direction perpendicular to the direction of travel when moving forward for the closure of the window. Specifically, both the outer window and the inner window move toward the center of the first gasket support 12, and the second and second protruding surfaces 53 and 63 of the inner window frame are in close contact with the first gasket 13. At the same time, the first protruding surfaces 52 and 62 are also in close contact with the second gaskets 17 and 27, respectively, to form a double seal, thereby forming an air insulation layer. 3 is a conceptual diagram for easily understanding the action of the close and seal means.

4A and 5A show the positional relationship between the window frame frame and the window frame when the window is opened. At this time, the first contacting means 18 and 28 and the second contacting means 58 and 68 are not in close contact with each other in a position where they are shifted from each other. Accordingly, the first and second protruding surfaces 52, 62, 53, and 63 of the window frame and the first and second gaskets 13, 17, and 27 do not form a closed structure.

4B and 5B show the positional relationship between the window frame and the window frame when the window is closed. At this time, while the second contact means (58, 68) formed on the window frame ascends through the first contact means (18, 28) formed on the window frame frame, the window frame moves toward the first gasket support (12) The first and second protruding surfaces 52, 62, 53, and 63 and the first and second gaskets 13, 17, and 27 form a sealed structure with an air layer therebetween.

As such, when the window is opened, the airtight structure is released, but when the window is closed, both protruding surfaces of the window frame have a double airtight structure at a time, which not only completely blocks the flow of air but also the air insulation layer therebetween. Heat loss can be minimized.

The present invention has been described in detail above with reference to specific embodiments, but the above embodiments are merely examples for easy understanding of the present invention, and therefore, substitutions, additions, and modifications within the scope do not depart from the spirit of the present invention. Embodiments will also belong to the protection scope of the present invention as defined by the claims below.

10; Outer frame 11; 3rd rail
12; First gasket support 13; First gasket
14; First rail 15, 25; Thermal cross section insert
16, 26; Second gasket supports 17, 27; 2nd Gasket
18, 28; First contact means 20; Inner frame
21; Bulkhead 22; 2nd rail
30; Thermal crosslinker 50; Outer window frame
51; Rollers 52, 62; First protrusion
53, 63; Second projection surfaces 58 and 68; Second contact means
60; Inner window frame

Claims (5)

In a typical US window, the window frame frame is a structure in which the outer frame 10 and the inner frame 20 are completely separated by the heat cross-linking material 30, and the window is moved in the forward direction when the window moves forward to close the window. Adhering means (18, 28, 58, 68) are respectively provided on the window frame frame and the window frame to move at the same time in the perpendicular direction with respect to the window frame, the air insulation layer between the window frame frame and the window frame by the movement when the window is closed Sealing means (13, 17, 27) is provided to form a double sealed structure sandwiched between, the outer frame 10 is the third rail 11 and the inner frame 20 for installing the insect screen on the outdoor side A first rail provided between the first rail gasket support 12 and the third rail 11 and the first gasket support 12 for installing the first gasket 13 for airtightness on both sides thereof. 14 and a lower portion of the first gasket support 12 It consists of a thermal cross-linking material inserting portion 15 for inserting the high thermal cross-linking material 30, the inner frame 20 is a partition wall 21 forming a boundary with the room, and the window frame inward of the partition wall 21 The second rail 22 for the movement of the high and high heat insulation performance, characterized in that it consists of the opposite heat cross-insert block portion 25 corresponding to the heat cross-insert block portion 15 at the outdoor end. Window structure delete According to claim 1, wherein the window frame has a first protruding surface 52, 62 and the second protruding surface (53, 63) protruding downward on both sides of the window frame so as to have a total shape of the press, the contact means The first contact means (18, 28) and the second protruding surface (53, 63) are respectively installed on the indoor side of the lower portion of the first rail 14, the outdoor side of the lower portion of the second rail (22) A window structure having high airtight performance and high insulation performance, characterized in that the second contact means (58, 68) is installed on the According to claim 3, wherein the second gasket support (16, 26) is provided on the outside of the lower portion of the first rail 14 and the inner side of the lower portion of the second rail 22, respectively, and the sealing means A first gasket 13 provided on both sides of the first gasket support 12, and second gaskets 17 and 27 provided on the second gasket supports 16 and 26, respectively. Window structure with airtight performance and high insulation performance The method of claim 3, wherein the sealing means is a first gasket 13 provided on each side of the first gasket support 12, and a second gasket 17 provided on the first protruding surface (52, 62), respectively. 27) A window structure having high airtight performance and high insulation performance, comprising

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