KR102006767B1 - vibration absorption type insulation window system - Google Patents

Abstract

According to the present invention, a vibration absorption type insulation window system includes: a multi-glass panel comprising a plurality of glass plates placed apart; a support frame unit installed on a wall to support the multi-glass panel, and comprising an inner frame exposed inwards and an outer frame exposed outwards, which are insulated from each other; a mounting bar unit placed between the multi-glass panel and the support frame unit, and comprising an inner bar exposed inwards and an outer bar exposed outwards, which are insulated from each other; and a vibration damping unit installed between the support frame unit and the mounting bar unit to make the mounting bar unit lifted and horizontally displaced to the support frame unit in the event of vibration, and including a plurality of bearing members rolling to the mounting bar unit. Accordingly, since the system is installed on a wall of a building to enable a window frame component to be relatively rolled to be easily supported in the event of vibration, the system is capable of improving the thermal efficiency of the building by effectively preventing heat delivery between indoor and outdoor areas while effectively absorbing vertical or horizontal vibrational shocks from an earthquake.

Description

Vibration absorption type insulation window system

The present invention relates to a vibration-absorbing thermal insulation window system, and more particularly by being installed on the outer wall of the building so that when the vibration occurs, the window frame frame is relatively rolling and smoothly supported. Vibration-absorbing insulation window system that effectively absorbs vibration shocks such as vertical earthquake and horizontal earthquake, and prevents heat from entering indoors in winter and prevents heat from entering into indoors in summer It is about.

Window means a variety of windows or doors installed in openings such as windows or doorways to block the interior space of the building from the outside. In a building, such windows are essential for circulation of light or indoor air, and a rectangular space is provided at a predetermined position of a wall during construction of a building and installed inside the space.

The type and size of the windows and the installation location and the number of windows are appropriately designed in consideration of the load applied to the building as well as the air conditioning and the warmth and light of the room.

Since the windows are usually installed on the wall between the columns, the windows themselves do not have a vertical load that the windows cannot handle. The vertical load of the building is mainly the column or bearing wall, and the windows play the role of connecting indoor and outdoor.

On the other hand, if a strong wind drives the building or an earthquake occurs, the building is loaded with a horizontal load. The horizontal load is a load that shakes the building from side to side and easily collapses the building. Buildings and bridges that collapse when an earthquake occurs are almost horizontal loads.

This external force results in the deformation, breakage and glass breakage of windows and doors.

Meanwhile, an example of a window system according to the prior art is disclosed in Korean Utility Model Registration No. 20-0382106 (registered on April 08, 2005, hereinafter referred to as 'Patent Document 1').

However, the window system according to the prior art does not properly cope with the load applied in the horizontal direction as well as the vertical direction due to an earthquake, etc., and therefore, there is a problem that it can be easily broken when an external impact occurs.

In addition, the window system according to the prior art has a problem that the thermal efficiency of the building can be lowered because the insulation structure that blocks the heat transfer between the outdoor and indoor is weak.

Korea Utility Model Registration No. 20-0382106 (Registered April 08, 2005)

An object of the present invention is to be installed on the wall of the building so that when the vibration occurs, the window frame structure is relatively rolling and smoothly supported, thereby effectively absorbing vibration shocks such as earthquake in the vertical direction or earthquake in the horizontal direction and at the same time, outdoor and indoor It is to provide a vibration-absorbing insulation window system that can effectively block the heat transfer between the building to improve the thermal efficiency of the building.

In order to achieve the above object, the vibration absorption type thermal insulation window system according to the present invention comprises: multiple glass panels made up of a plurality of glass plates provided to be spaced apart from each other; A support frame unit installed on a wall and provided to support the multiple glass panels, the inner frame exposed to the indoor side and the outer frame exposed to the outdoor side, wherein the inner frame and the outer frame are mutually insulated from each other; An installation bar unit provided between the multiple glass panels and the support frame unit, the inner bar exposed to the indoor side and the outer bar exposed to the outdoor side, wherein the inner bar and the outer bar are mutually insulated from each other; And a plurality of bearing members disposed between the support frame unit and the mounting bar unit to raise and horizontally displace the mounting bar unit with respect to the supporting frame unit when vibration occurs. It characterized in that it comprises a; vibration damping unit having.

Here, the vibration damping unit may include a plurality of elongated needle bearings arranged side by side.

On the other hand, the vibration damping unit may include a plurality of ball bearings disposed to be distributed to each other.

According to the present invention, it is installed on the wall of the building so that when the vibration occurs, the window frame structure is relatively rolling and smoothly supported, effectively absorbing the vibration shocks such as the earthquake in the vertical direction or the earthquake in the horizontal direction and at the same time between the outdoor and indoor It is possible to provide a vibration absorbing thermal insulation window system that can effectively block the heat transfer to improve the thermal efficiency of the building.

1 is a side cross-sectional view showing the configuration of a vibration absorbing thermal insulation window system according to the present invention;
2 is a perspective view of a vibration damping unit according to the present invention;
3 is a perspective view of a vibration damping unit according to another embodiment of the present invention,
4 is an exploded cross-sectional view of a support frame unit according to the present invention;
5 is an exploded cross-sectional view of the installation bar unit according to the present invention;
Figure 6 is a side cross-sectional view showing the configuration of a vibration absorbing thermal insulation window system according to another embodiment of the present invention.

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

As shown in FIG. 1, the vibration absorption type thermal insulation window system according to the present invention is provided with a plurality of glass panels 100 and a plurality of glass plates 110 provided to be spaced apart from each other, and installed on the wall 10. The support frame unit 200 provided to support the glass panel 100, the installation bar unit 300 provided between the multiple glass panel 100 and the support frame unit 200, and the support frame unit 200. And a vibration damping unit 400 provided between the installation bar units 300.

The glass plate 110 of the multiple glass panel 100 is fitted to the glass mounting portion 340 to be described later of the mounting bar unit 300 is installed.

1 and 4, the support frame unit 200, as shown in Figures 1 and 4, the length of the member is drawn long by a member having a longitudinal direction by the injection molding method of a metal material such as aluminum, a large amount is produced at once, and indoors The inner frame 210 is exposed to the side and the outer frame 220 is exposed to the outdoor side, the inner frame 210 and the outer frame 220 is formed to be insulated from each other.

Accordingly, it is installed on the wall 10 of the building to effectively absorb vibration shocks such as vertical earthquake or horizontal earthquake, and at the same time can effectively block the heat transfer between outdoor and indoor to improve the thermal efficiency of the building. A vibration absorbing thermal insulation window system can be provided.

As an embodiment of the present invention, as shown in Figure 4, between the inner frame 210 and the outer frame 220, the insulating frame 230 made of a heat insulating material is interposed vertically provided to block them from each other It is preferable.

Accordingly, the inner frame 210 and the outer frame 220 are provided to be insulated from each other by the insulating frame 230, thereby preventing the heat of the summer outdoor from entering the room and the heat of the winter indoor to the outside It is possible to effectively exert the heat insulation function that the heat transfer by conduction or convection is prevented from going out.

As shown in FIG. 1, the inner frame 210 and the outer frame 220 form a hollow shape in cross section and are partitioned by the frame partition wall 201.

Accordingly, the support frame unit 200 according to the present invention is divided into the inner frame 210 and the outer frame 220 by the insulation frame 230 to be insulated from each other, so that the insulation effect is greatly exerted. The inside of the inner frame 210 and the outer frame 220 is provided in a hollow form, and is partitioned by the frame partition wall 201, so that the weight is reduced as a whole, and heat insulation can be more surely achieved.

On the other hand, as shown in Figures 1 and 4, the frame exposed portion 311 to be described later when the lifting bar of the installation bar unit 300 in the portion exposed to the indoor side from the inner frame 210 is received and stable lifting operation The bar elevating groove 211 is formed to be guided so as to be guided.

The installation bar unit 300, as shown in Figures 1 and 5, is drawn to a member having a longitudinal direction by the injection molding method made of a metal material such as aluminum is produced in large quantities at once, a large amount at a time The inner bar 310 is exposed to the side and the outer bar 320 is exposed to the outdoor side, the inner bar 310 and the outer bar 320 is made to be insulated from each other.

Accordingly, the vibration bar such as an earthquake or the like may be effectively absorbed by the installation bar unit 300 on which the upper and lower portions of the support frame unit 200 are lifted and cushioned by the vibration damping unit 400 and the multiple glass panels 100 are installed. It is possible to provide a vibration absorbing heat insulation window system that can effectively exhibit the insulation function.

As an embodiment of the present invention, as shown in Figure 5, between the inner bar 310 and the outer bar 320, the insulating bar 330 made of a heat insulating material is interposed vertically provided to block them from each other It is preferable.

Accordingly, the inner bar 310 and the outer bar 320 are provided to be insulated from each other by the insulating bar 330, thereby effectively exhibiting a heat insulating function to block heat transfer by conduction or convection between the outdoor and the indoor. You can do that.

As shown in FIG. 1, the inner bar 310 and the outer bar 320 form a hollow shape in cross section and are partitioned by the bar partition wall 301.

Accordingly, the installation bar unit 300 according to the present invention is divided into the inner bar 310 and the outer bar 320 by the insulating bar 330 is provided to be insulated from each other, so that the thermal insulation effect is greatly exerted. The inside of the inner bar 310 and the outer bar 320 is provided in a hollow shape, and partitioned by the bar partition wall 301, so that the weight is reduced as a whole, and heat insulation can be more surely achieved.

On the other hand, as shown in Figures 1 and 5, the portion exposed to the interior side from the inner bar 310 is fitted to the bar lifting groove 211 of the support frame unit 200 during the lifting of the installation bar unit 300. The frame mounting part 311 is provided, and the glass installation part 340 protrudes upward so that the glass plate 110 of the multiple glass panel 100 is fitted on the inner bar 310 and the outer bar 320. It is provided, between the lower portion of the glass plate 110 and the glass mounting portion 340, the glass plate 110 is elastically cushioned support member 341 so as to be elastically installed and supported in the vibration-absorbing thermal insulation window system according to the present invention. ) Is provided.

As shown in FIGS. 1 and 2, the vibration damping unit 400 is provided between the support frame unit 200 and the installation bar unit 300 so that when the vibration occurs, the installation bar unit 300 supports the support frame unit ( It has a plurality of bearing members 415 to be elevated and horizontally displaced with respect to 200 and rolling on the installation bar unit 300.

Accordingly, when the vibration occurs, the window frame structure is relatively rolling and smoothly supported, so that the vibration shock such as the earthquake in the vertical direction or the earthquake in the horizontal direction is effectively between the support frame unit 200 and the installation bar unit 300. Can be absorbed.

More specifically, the vibration damping unit 400, as shown in FIGS. 1 to 3, is disposed between the inner frame 210 and the inner bar 310, and the outer frame 220 and the outer bar 320. A spring damper 410 and an upper portion of the spring damper 410, respectively provided between the spring damper 410 and the spring bar 300, which are provided to cushion the mounting bar unit 300 up and down and the shock applied to the support frame unit 200. The bearing support plate 413 provided in the form of a flat plate, and the bearing support plate 413 includes a plurality of bearing members 415 provided in a rolling motion.

As an embodiment of the present invention, as shown in FIG. 2, the vibration damping unit 400 includes a plurality of elongated needle bearings arranged side by side on the bearing support plate 413 as bearing members 415. Can be.

Accordingly, as the bar bar 300 is horizontally displaced with respect to the support frame unit 200 when an earthquake or vibration occurs in the horizontal direction, a plurality of needle bearings contacting the bar bar 300 are installed on the bar bar 300. Since the rolling motion is performed, the shock caused by the earthquake or vibration can be effectively cushioned and damped.

Meanwhile, as another embodiment of the present invention, as shown in FIG. 3, the vibration damping unit 400 may include a plurality of ball bearings disposed to be distributed with each other on the bearing support plate 413 as the bearing members 415. Can be.

Accordingly, as the installation bar unit 300 is horizontally displaced with respect to the support frame unit 200 when an earthquake or vibration occurs in the horizontal direction, a plurality of ball bearings contacting the installation bar unit 300 are installed on the installation bar unit 300. Since the rolling motion is performed, the shock caused by the earthquake or vibration can be effectively cushioned and damped.

Meanwhile, as shown in FIG. 1, an installation heat insulating material 500 is provided between the support frame unit 200 and the wall 10, and vibrates between the installation bar unit 300 and the support frame unit 200. In the portion where the damping unit 400 is not provided, the insulating filler 600 may be provided at one side of the vibration damping unit 400 to be spaced apart from the vibration damping unit 400.

Accordingly, the vibration absorbing insulation window and door system according to the present invention by the installation heat insulating material 500 can be firmly maintained in the airtightness and heat insulation at the site installed on the wall 10, the installation bar by the heat insulating filler 600 The space between the unit 300 and the support frame unit 200 can be thermally partitioned into a plurality of spaces and can more reliably block heat transfer.

On the other hand, as shown in Figure 1, the inside of the lower space to which the vibration damping unit 400 is coupled among the plurality of spaces partitioned by the frame partition wall 201 inside the support frame unit 200, the installation bar An elastic packing member 700 may be provided inside the upper space where the vibration damping unit 400 is coupled among the plurality of spaces in which the inside of the unit 300 is divided by the bar partition wall 301.

Accordingly, in the vibration absorption type heat insulation window system according to the present invention, the airtightness and the elastic buffering force at the portion where the vibration damping unit 400 is installed may be reinforced, so that the seismic performance may be further improved.

On the other hand, as another embodiment of the present invention, as shown in Figure 6, the spring damper 410 of the vibration damping unit 400 is a buffer insulating member 800 provided with a rubber material between the cover provided up and down Can be protected by).

Accordingly, the buffering force of the spring damper 410 may be reinforced by the buffer insulation member 800, and the insulation between the support frame unit 200 and the installation bar unit 300 may be further reinforced.

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: multiple glass panel 110: glass plate
200: support frame unit 210: inner frame
220: outer frame 300: mounting bar unit
310: inner bar 320: outer bar
400: vibration damping unit 415: bearing member

Claims (3)

A multi-glass panel comprising a plurality of glass plates spaced apart from each other;
A support frame unit installed on a wall and provided to support the multiple glass panels, the inner frame exposed to the indoor side and the outer frame exposed to the outdoor side, wherein the inner frame and the outer frame are mutually insulated from each other;
An installation bar unit provided between the multiple glass panels and the support frame unit, the inner bar exposed to the indoor side and the outer bar exposed to the outdoor side, wherein the inner bar and the outer bar are mutually insulated from each other; And
Vibration is provided between the support frame unit and the mounting bar unit to cause the mounting bar unit to be elevated and horizontally displaced with respect to the support frame unit when vibration occurs, and having a plurality of bearing members rolling on the mounting bar unit. Damping unit;
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Between the inner frame and the outer frame is provided with a heat insulating frame made of a heat insulating material vertically interposed to block them from each other,
The inner frame and the outer frame have a hollow shape in cross section is provided to be partitioned by the frame partition,
Between the inner bar and the outer bar is provided with a thermal insulation bar made of a thermal insulation material vertically interposed to block them from each other,
The inner bar and the outer bar has a hollow shape in cross section is provided to be partitioned by the bar partition wall,
The vibration damping unit is provided between the inner frame and the inner bar, and between the outer frame and the outer bar, respectively, and is applied to the support frame unit by raising and lowering the mounting bar unit up and down. A spring damper provided to cushion the shock, a bearing support plate provided in the form of a flat plate on the spring damper, and a plurality of bearing members provided on the bearing support plate in a rolling motion;
An installation insulating material is provided between the support frame unit and the wall, and a heat insulating filler is provided between the installation bar unit and the support frame unit to be spaced apart from the vibration damping unit.

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