KR200449143Y1

KR200449143Y1 - Sliding windows improved airtight and high thermal-insulation properties

Info

Publication number: KR200449143Y1
Application number: KR2020090016608U
Authority: KR
Inventors: 조인종
Original assignee: (주)일국기업
Priority date: 2009-12-21
Filing date: 2009-12-21
Publication date: 2010-06-21

Abstract

The present invention relates to a sliding window with improved insulation and airtightness, and more particularly, to a sliding window with improved insulation and airtightness, which greatly improves insulation, airtightness, and watertightness by preventing a gap space between the window frame and the window.

The present invention is a window frame consisting of a top chassis and a bottom chassis, a plurality of rail grooves formed in the upper frame and a bottom frame formed with a plurality of guide rails, a side frame formed with a plurality of sealing protrusions, a side chassis formed with a plurality of sealed grooves. In the sliding window coupled to the left and right reciprocating movement, the first groove (51) in the closed groove 51 formed in the side chassis 50 is in contact with the sealing projection 11 of the side frame 10 ) Is installed, one side of the first elastic shielding opening (55) is characterized in that the first elastic cover (58) surrounding the end of the sealing projection (11) is formed.

Sliding door, window, window, window frame, 1, 2, 3 elastic shutout door, 1, 2, 3 elastic cover

Description

SLIDING WINDOWS IMPROVED AIRTIGHT AND HIGH THERMAL-INSULATION PROPERTIES}

In the building, the window serves as a wall that separates the interior from the outside, and serves as a supply passage of sunlight and fresh outside air, and is an essential component of the building, which makes the indoor people feel the view and openness. It can be divided into closed windows and closed windows.

In addition, the open and close windows can be classified into sliding windows and sliding windows, sliding windows are divided into horizontal windows for sliding the windows in the horizontal direction, and vertical windows for sliding the windows in the vertical direction, In Korea, the horizontal type is almost applied, and the size of the apartment is getting larger with the spread of apartments.

In particular, most living room windows that separate the veranda of the apartment and the living room are the largest windows in the apartment and are sliding windows that separate indoor / outdoor, while preventing outdoor noise from being transferred to the interior and securing a view. It is a very important window for minimizing the thermocouple inside / outside the apartment.

However, with the development of various window materials, even though most apartments have air windows today, additional veranda windows with excellent heat insulation and sound insulation are provided on the veranda, thereby increasing the interior space.

In addition, since the balcony windows play the role of the air chamber window that distinguishes the interior / outdoor of the conventional apartment, the living room window reaches the level that causes inconvenience in apartment life. It is becoming commonplace to use the veran and living room as one interior space.

As described above, since the veranda disappears while indoors, the necessity for privacy protection and shading becomes greater, and the conventional sliding windows used in most veranda windows are as follows.

The first sliding windows were made of wooden frames, and the dimensions of the windows were lowered, and the gap between the windows and the windows and the windows and the windows formed a lot of insulation and sound insulation. The entire window was sealed with a vinyl sheet that the wind could not pass through.

In addition, with the development of science and technology, aluminum, synthetic resins, etc. can be extruded, windows and doors made of extruder have been developed. Significant improvements have been made in sound insulation.

However, in recent sliding windows, the gap between the window frame and the window is often not properly sealed, which leads to the problem that the prerequisite insulation efficiency, windproof, and soundproofing efficiency are greatly reduced. Although the member is installed to some extent to compensate for the above problems, there is a problem in that the mohair hair member is not only limited as well as when the mohair hair member is wet with water.

The present invention was devised to solve the above problems, and an object of the present invention is to provide a first, second, and third elastic contact with the guide rail and the sealing protrusion of the window frame at the upper and lower chassis and the side chassis of the window coupled to the window frame. Provides sliding doors with improved insulation and airtightness, which prevents gaps between window frames and windows by installing blocking openings and first, second and third cover openings to greatly improve insulation, airtightness, windproof, soundproofing and waterproofing. have.

The structure of the present invention for achieving the above object is the upper chassis and the lower chassis, the plurality of rail grooves are formed in the window frame consisting of the upper frame and the lower frame, the side frame formed with a plurality of sealing projections, a plurality of guide rails, a plurality of sealed In the sliding window is a window formed of a side chassis formed with a groove coupled to the left / right reciprocating movement, the sealing groove 51 formed in the side chassis 50 to the sealing projection 11 of the side frame (10) The first elastic blocking holes 55 in contact with each other are installed, and one side of the first elastic blocking holes 55 is formed with a first elastic cover hole 58 surrounding the end of the sealing protrusion 11. do.

As described above, according to the present invention, the first, second and third elastic barriers and the first, second and third elastic barriers contacting the guide rails and the sealing protrusions of the window frame in the upper and lower chassis and the side chassis of the window coupled to the window frame. By installing the cover, there is no gap space between the window frame and the window, so that the outside wind or sound can be more reliably prevented from entering the inside, thereby improving the insulation and airtightness, and the windproof and soundproof waterproof efficiency.

Hereinafter, with reference to the accompanying drawings will be described in detail the sliding windows and doors improved heat insulation and airtightness of the present invention.

1 is a perspective view showing a sliding window with improved insulation and airtightness according to the present invention, Figure 2 is a cross-sectional view showing a cross-sectional view A-A of Figure 1, Figure 3 is a cross-sectional view showing a cross-sectional view B-B of FIG.

As shown in FIGS. 1 to 3, a sliding window having improved insulation and airtightness according to the present invention includes a plurality of rail grooves on a window frame including a top frame and a lower frame having a plurality of guide rails and a side frame having a plurality of sealing protrusions. The sliding upper and lower sash, the window formed of a plurality of side grooves formed in the side sash is coupled to the left and right reciprocating sliding doors, the closed groove 51 formed in the side chassis 50 in the side The first elastic shielding opening 55 is provided in contact with the sealing protrusion 11 of the mold 10.

The window frame is formed by weaving a frame with the upper frame 30, the lower frame 20, and the side frame 10, and the plurality of guide rails 21,31 on the lower surface of the lower frame 20 and the upper frame 30. ) Is formed.

In other words, four guide rails 21 and 31 are formed in the lower frame 20 and the upper frame 30 in the longitudinal direction, and the sealing protrusions 11 formed on the side frame 10 are also formed on both sides. Four sealing projections 11 are formed in the longitudinal direction.

In addition, the window is composed of a frame formed by the upper chassis 60, the lower chassis 70, the side chassis 50, the glass panel 40 is installed inside the window.

Here, two side sealing grooves 51 are formed in the side chassis 50, and each of the first sealing openings 51 is in contact with the sealing protrusion 11 of the side frame 10. 55 is installed.

In other words, the first elastic shut-off opening 55 is a "T" shape and is caught by a pair of first locking pieces 52 formed in the longitudinal direction inside the sealed groove 51 of the side chassis 50. One head 56 and the first extension portion 57 in which the other side is in contact with the sealing projection 11 of the side frame 10 while one side is connected to the first head 56, The first extension portion 57 of the first elastic barrier opening 55 is in contact with the sealing protrusion 11 to improve heat insulation and airtightness.

Here, the "∩" shape to surround the end of the sealing projection 11 on one side of the first elastic shielding opening 55, that is, the end of the first extension portion 57 in contact with the sealing projection (11). The first elastic cover sphere 58 is formed to further enhance heat insulation and airtightness.

In addition, it is preferable that the hair member is installed at both sides of the inside of the sealing groove 51.

In addition, two rail grooves 61 are formed in the upper sash 60, and each of the rail grooves 61 has a second elastic blocking sphere contacting the guide rail 31 of the upper frame 30. 65) is installed.

That is, the second elastic shielding opening 65 is “T” shaped to engage with a pair of second locking pieces 62 formed in the longitudinal direction inside the rail groove 61 of the upper chassis 60. The head 66 and a second extension portion 67 which is in contact with the guide rail 31 of the upper frame 30 while one side is connected to the second head 66, the second The second extension portion 67 of the two elastic shielding openings 65 is in contact with the guide rail 31 of the upper frame 30 to improve heat insulation and airtightness.

Here, the end of the guide rail 31 of the upper frame 30 on one side of the second elastic blocking opening 65, that is, the end of the second extension portion 67 in contact with the guide rail 31 of the upper frame 30 The second elastic cover sphere 68 of the "∩" shape to surround the is formed to further improve insulation and airtightness.

Meanwhile, two rail grooves 71 are formed in the lower chassis 70, and each of the rail grooves 71 is in contact with the guide rail 21 of the lower frame 20. 75 is installed.

In other words, the third resilient shut-off port 75 is “T” shaped to be caught by a pair of third locking pieces 72 formed in the longitudinal direction inside the rail groove 71 of the lower chassis 70. It consists of a three head portion 76 and the third extension portion 77, the other side is in contact with the guide rail 21 of the lower frame 20 in a state that one side is connected to the third head portion 76, The third extension part 77 of the third elastic barrier opening 75 is in contact with the guide rail 21 of the lower frame 20 to improve heat insulation and airtightness.

Here, it is preferable that the third elastic blocking holes 75 are not formed at a portion where the driving roller 80 is installed in the rail groove 71 of the lower chassis 70.

In addition, the guide rail 21 of the lower frame 20 at one end of the third elastic shielding opening 75, that is, the end of the third extension portion 77 in contact with the guide rail 21 of the lower frame 20. 3) The third elastic cover sphere 78 having a "∩" shape to surround the end is formed to further improve insulation and airtightness.

In this way, by installing the first, second, third elastic cutouts and the first, second, and third elastic cover holes in the upper chassis, the lower chassis, and the side chassis of the window coupled to the window frame, there is no gap between the window frame and the window. Insulation and airtightness is improved, and the windproof efficiency and soundproofing, the effect of waterproofing can be greatly improved.

1 is a perspective view showing a sliding window and improved insulation and airtightness according to the present invention,

Figure 2 is a cross-sectional view showing a flat cross-sectional state of the sliding window and improved insulation and airtight according to the present invention,

Figure 3 is a cross-sectional view showing a side cross-sectional state of the sliding window and the improved insulation and airtightness according to the present invention.

10: side frame 11: sealing protrusion 20: lower frame

21: guide rail 30: upper 31: guide rail

40: glass panel 50: side chassis 51: sealed groove

52: First Jam Part 55: First Elastic Blocking Hole 56: First Head

57: first extension portion 58: first elastic cover ball 60: upper chassis

61: rail groove 62: second jamming 65: second elastic cut-off

66: second head 67: second extension 68: second elastic cover ball

70: lower chassis 71: rail groove 72: third jamming

75: third elastic barrier opening 76: third head 77: third extension

78: third elastic cover ball 80: drive roller

Claims

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The upper and lower chassis, the upper chassis, the lower chassis, and the side chassis, which have a plurality of sealed grooves, are formed on the window frame composed of the upper frame and the lower frame formed with a plurality of guide rails and the side frame formed with a plurality of sealing protrusions. In the sliding windows coupled to the reciprocating movement,

A first elastic blocking hole 55 is provided in the sealing groove 51 formed in the side chassis 50 to be in contact with the sealing protrusion 11 of the side frame 10, and the first elastic blocking hole 55 is provided. One side of the sliding doors and improved heat insulation and airtightness, characterized in that the first elastic cover sphere 58 is formed surrounding the end of the sealing projection (11).

A first elastic blocking hole 55 which is in contact with the sealing protrusion 11 of the side frame 10 is installed in the sealed groove 51 formed in the side chassis 50, and the rail groove of the upper chassis 60. The second elastic blocking hole 65 which is in contact with the guide rail 31 of the upper frame 30 is installed at 61, and one end of the guide rail 31 is provided at one side of the second elastic blocking hole 65. Sliding window improved insulation and airtightness, characterized in that the second elastic cover sphere 68 is formed to surround.

A first elastic blocking hole 55 which is in contact with the sealing protrusion 11 of the side frame 10 is installed in the sealed groove 51 formed in the side chassis 50, and the rail groove of the upper chassis 60. The second elastic blocking opening 65 is provided in contact with the guide rail 31 of the upper frame 30, and the rail groove 61 of the lower chassis 70 is provided with A third elastic shielding opening (75) contacting the guide rail (31) is installed, and one side of the third elastic shielding opening (75) surrounds the end of the guide rail (31). Sliding windows improved insulation and airtightness, characterized in that is formed.