KR101609246B1 - Opening and Closing Window System for Multi-Insulating - Google Patents

Abstract

The present invention relates to a multi-insulation opening and closing window system. The multi-insulation opening and closing window system comprises: a window frame having an accommodating space on an outdoor side; an opening and closing window which includes a glass wall separated from the accommodating space at a predetermined distance and having a double or triple glass window and a partitioning material provided on an indoor side of the glass wall to increase an insulation effect of the separated space formed between the glass wall and the window frame and which rotates to open and close the glass wall from the window frame on an outdoor side; and a fixing frame which includes a frame which is fixed to the window frame and which is in contact with the partitioning material when the opening and closing window is closed, a heat bridge blocking material provided on an outdoor side of the frame, extending to cover an upper portion of the accommodating space, and blocking a heat bridge caused by external air, and a blocking material for preventing a heat bridge at a position with which the partitioning material is in contact.

Description

{Opening and Closing Window System for Multi-Insulating}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to a multi-insulation opening / closing window system, and more particularly, to a multi-insulation opening / closing window system capable of minimizing heat transfer due to conduction, convection and radiation through opening and closing windows and window frames.

Generally, the role of windows used in buildings is to use mining, gazing and ventilation in the interior space of the building. Especially, in order to improve the indoor air quality and save energy, ventilation is essential. Projects (PJ) windows that open and close windows vertically and casement (CM) windows that open and close to the right and left are widely applied to such windows that can be opened and closed.

As a window of a building, a window-opening type window which is rotated by rotating a handle attached to a lower portion and pushed outward to rotate the window around a horizontal axis at the upper side is referred to as a project window or an opening window, and a handle attached to the right or left side The side opening type window which is opened and closed by turning the window around the vertical axis on the opposite side of the handle by pushing it outward is called a casement window or a casement window.

In order to satisfy the required wind pressure performance and the like in a high-rise building, such an opening and closing window is mainly made of aluminum as a window frame, and includes a window frame fixed to a wall, a window frame rotated from the window frame, A window for opening and closing a window is formed by assembling a window.

However, since the conventional window opening and closing window is gradually widened due to the load of the window glass or the impact generated during the opening and closing operation, the airtightness and the watertightness performance and the fixing method by the jointed portion are difficult, There is a problem in that it is difficult to apply to

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a multi-insulation opening and closing window system that minimizes heat generated between a window frame and a window glass.

It is another object of the present invention to provide a window frame of a curtain wall and a window of various shapes, which can improve the basic performance of a window such as airtightness, sound insulation, windproofness and watertightness and can improve watertightness, Which is capable of improving the heat insulation performance by ensuring convenience and safety of work.

According to an aspect of the present invention, there is provided a multi-insulation opening and closing window system including a window frame having an accommodation space in an outdoor side, a window frame spaced apart from the accommodation space by a predetermined distance, And a partition member provided on an inner side of the glass wall for enhancing a heat insulating effect of a space formed between the glass wall and the window frame, wherein the glass wall is opened / A frame which is fixed to the window frame and is in contact with the partition when the opening and closing window is closed; a thermal bridge provided on the outdoor side of the frame and extending to cover the upper portion of the accommodation space, And a blocking member for blocking a heat bridging phenomenon at a position where the partition member is in contact with the partition member It can be included.

The glass window may include a first glass window spaced apart from the window frame by a predetermined distance, and a second glass window formed on the rear surface of the first window window by a spacer and spaced apart from the window pane by a distance.

Wherein the partition member includes a first partition member which supports one end of the glass wall and extends upward from an inner side surface of the glass wall, and a second partition member which is partitioned by the first partition member and the azon, And a second partition member that is formed to extend toward the side surface and has an opening / closing device for opening / closing the opening / closing window.

Wherein the first partition member surrounds the first partition member provided at one end of the glass wall and blocks the heat transmitted through the glass wall and the outside air from being transmitted to the first partition member, A corner zone provided between the partition member and the glass wall for reinforcing the strength of the opening and closing window and preventing a gap between the glass wall and the first partition member from being widened; And an outside air blocking gasket for blocking external air transmitted through the spacing space between the glass walls.

The first compartment may further include a compartment zone for partitioning the first compartment at one end of the glass wall to prevent the heat transmitted through the glass wall and the outside air from entering the room.

The second compartment being provided between the glass wall and the second compartment to block thermal bridging which is transmitted through the glass wall; and a second compartment provided on the inner side of the second compartment to reinforce the strength of the second compartment And a corner piece for preventing widening.

The frame includes a body frame provided at an upper portion of the window frame and having a corner piece for preventing a strength of the frame from being reinforced and widened, and an upper portion extending upward from a rear surface of the body frame to a rear surface of the partition, And an air layer formed in a zigzag shape to prevent slippage of the frame at a position protruding outward from the body frame and in contact with the heat bridge block so as to increase a coupling force between the body frame and the heat bridge block, And a support frame having a pitch for increasing the height of the support frame.

The heat bridge block may include a main body portion having a filling hole formed in a predetermined space at a position where the heat bridge block interrupts a thermal bridging phenomenon between the frame and the partition and is filled with an adhesive, An extension portion covering the accommodation space and having a corner piece in the accommodation space side and a latch portion formed at a position in contact with the frame at a room side of the main body portion and fixing the frame so as to increase a coupling force between the frame and the accommodation portion can do.

Wherein the main body comprises a filling hole which is provided between the frame and the partition to block a thermal cross-over phenomenon between the frame and the partition and form a predetermined space at a position in contact with the frame and fill the adhesive, And an insulating layer formed at a position in contact with the window frame so as to prevent the heat bridge block from sliding on the window frame and being formed in a zigzag shape to improve the heat insulating performance, And an insulating pitch for increasing the height.

The main body may further include a fixture for fixing the azon to partition the frame and the window frame in order to prevent a thermal bridging phenomenon.

According to another aspect of the present invention, there is provided a multi-insulation opening and closing window system including a window frame having an accommodation space on an outdoor side, a window frame spaced apart from the accommodation space by a predetermined distance, And a partition member provided on an inner side of the glass wall for enhancing a heat insulating effect of a space formed between the glass wall and the window frame, A frame which is fixed to the window frame and is in contact with the partition when the opening and closing window is closed; a heat bridge which is extended to the outdoor side of the frame and is partially accommodated in the accommodation space and is transmitted through the outside air and the window frame; A heat bridge block for blocking the development, And a stationary frame having a barrier material.

The heat bridge block may include a main body portion having a filling hole formed in a predetermined space at a position where the heat bridge block interrupts a thermal bridging phenomenon between the frame and the partition and is filled with an adhesive, An extension portion accommodated in the accommodating space and having a corner piece for preventing strength reinforcement and widening in the inside thereof; and an extension portion formed at a position in contact with the frame at the inside of the main body portion, And may be provided with a locking part for fixing.

Wherein the main body comprises a filling hole which is provided between the frame and the partition to block a thermal cross-over phenomenon between the frame and the partition and form a predetermined space at a position in contact with the frame and fill the adhesive, And an insulating layer formed at a position in contact with the window frame so as to prevent the heat bridge block from sliding on the window frame and being formed in a zigzag shape to improve the heat insulating performance, And an insulating pitch for increasing the height.

The main body may further include a fixture for fixing the azon to partition the frame and the window frame in order to prevent a thermal bridging phenomenon.

The extension part includes a first extension part provided at an outdoor side surface of the accommodation space to block a thermal bridge phenomenon transmitted through the window frame, and a second extension part provided at an upper side of the first extension part, And a second extension portion.

According to the multi-insulated opening and closing window system of the present invention, the partition member is provided in the space between the glass wall and the window frame to improve airtightness and watertightness, and to improve the ease of operation of installing the opening and closing windows and the structural safety of the opening and closing windows You can.

Further, a partition member and a heat bridge member are provided between the window frame and the window frame to improve the heat insulation phenomenon, and the heat bridge phenomenon transmitted through the window frame can be prevented.

1 and 2 are sectional views showing a window system installed on a window frame according to an embodiment of the present invention;
3 is a cross-sectional view illustrating a multi-insulation opening and closing window system according to an embodiment of the present invention;
4 is a sectional view showing an opening / closing window of the multi-insulating opening and closing window system shown in Fig.
FIG. 5 is a sectional view showing a fixed frame of the multi-insulating opening and closing window system shown in FIG. 3;
FIG. 6 is an exploded cross-sectional view illustrating a multi-insulation opening / closing window system according to an embodiment of the present invention; FIG.
7 is a cross-sectional view illustrating an opening / closing window of a multi-insulation opening and closing window system according to another embodiment of the present invention.
FIG. 8 is a cross-sectional view illustrating a fixed frame of a multi-insulating opening and closing window system according to another embodiment of the present invention. FIG.
FIG. 9 is a sectional view showing a window system installed on a window frame with a front surface opened according to an embodiment of the present invention; FIG.
10 is a cross-sectional view illustrating a multi-insulating opening and closing window system formed of a triple glass wall according to another embodiment of the present invention.
11 is a cross-sectional view illustrating a multi-insulation opening / closing window system according to another embodiment of the present invention.
12 to 13 are sectional views showing another embodiment of the multi-insulating opening and closing window system shown in Fig.
FIG. 14 is a sectional view showing a window system installed on a window frame having a front surface according to another embodiment of the present invention. FIG.
15 is a cross-sectional view illustrating a multi-insulating opening / closing window system formed of a triple glass wall according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a multi-insulating window opening / closing system according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 are sectional views showing a window system installed on a window frame according to an embodiment of the present invention.

1 and 2, an open / close window system according to an embodiment of the present invention includes a window frame 1000 to which a window is fixed or installed on a wall, an open / close window (2000), and a stationary frame (3000) fixed to the window frame (1000) and contacting the opening / closing window (2000).

In general, the opening and closing window means a window which can be opened or closed in a slightly open or tilted manner in addition to a simple sliding door opening method. In order to satisfy the required wind pressure performance and the like in a high-rise building, aluminum is used as a window frame 3100, and the opening and closing window includes an angle adjusting device 100 in which the opening and closing window 2000 is rotated at a predetermined angle, (200) for opening and closing the door (2000) can be provided and fixed to the window frame (1000).

The opening and closing window system of the present invention is installed in a window frame 1000 that is fixed to a curtain wall or a wall. The curtain wall or the window frame 1000 may be provided with an accommodation space 1100 on the outdoor side, So that multiple insulation can be possible.

In addition, the multi-insulated opening and closing window system of the present invention can be installed in a factory or on-site in a curtain wall or in a necessary part of a window in a detachable form rather than integral with a window frame 1000 fixed to a wall.

1, the window frame 1000 may be fixed to upper and lower portions when the curtain wall is used, and the window 2000 having the glass wall 2100 may be opened or closed . At this time, the window frame 1000 may be provided with a receiving space 1100 at a position where the opening / closing window 2000 is provided.

In addition, the window frame 1000 is fixed to the wall, as shown in FIG. 2, so as to fix a window used mainly in a building.

In this case, the window frame 1000 may be formed with various structures for enhancing the heat insulation effect on the inside according to the use of the curtain wall or the general window. However, in the multi-insulating window opening / closing system of the present invention, the structure of the window frame 1000 is omitted .

FIG. 3 is a cross-sectional view of a multi-insulating opening and closing window system according to an embodiment of the present invention, FIG. 4 is a sectional view of an opening and closing window of the multi- 6 is a disassembled cross-sectional view of a multi-insulation opening and closing window system according to an embodiment of the present invention.

3 to 6, the multi-insulating opening and closing window system according to an embodiment of the present invention includes a window frame 1000 having an accommodation space 1100 on an outdoor side, A glass wall 2100 having a glass window 2110 spaced apart from the window wall 2100 by a distance of 2 to 3 and a window space 2110 formed between the glass wall 2100 and the window frame 1000, An opening and closing window 2000 having a partition member 2200 provided on an inner side of the glass wall body 2100 and rotated to open and close the glass wall body 2100 in the window sill 1000, A frame 3100 which is fixed to the partition wall 3100 and is in contact with the partition member 2200 when the opening and closing window 2000 is closed and a frame 3100 which is provided on the outdoor side of the frame 3100 and extends to cover the upper portion of the accommodation space 1100 A heat bridge member 3200 for blocking the heat bridge phenomenon due to external air, It may be provided with a fixed frame (3000) having a barrier material (3300) for interrupting thermal bridges in the position in contact with the exchanger material compartment 2200.

The window frame 1000 may be a window frame 3100 to which the opening / closing window 2000 is coupled, and the opening / closing window 2000 provided with the glass wall 2100 may be fixed. The window frame 1000 may be provided with a predetermined accommodation space 1100 on the outdoor side and may be fixed to the window frame 3100 in various ways by a window frame 3100 fixed to the wall or forming a curtain wall .

4, the opening / closing window 2000 includes a glass wall body 2100 rotated at a predetermined angle by the angle adjusting device 100, the partition member 2200 provided with the opening / closing device 200, .

The glass wall 2100 of the opening and closing window 2000 may be formed of two or three glass windows 2110 and a plurality of glass windows 2110 may be formed so that a plurality of glass windows 2110 may be formed as double or triple. A sealing material 2130 for improving the airtightness between the glass wall 2100 and the frame 3100 and a sealing material 2130 for improving the airtightness between the glass wall 2100 and the frame 3100. [ And a glass block 2140 provided between the partition member 2200 and the partition member 2200 to prevent damage to the glass wall 2100 and to support a glass load.

The glass wall 2100 is provided with a spacer 2220 between a plurality of glass windows 2110 so that the glass wall 2100 is formed in a double or triple shape and the outside of the spacer 2220 is inserted into two glass windows 2110 by inserting a sealing material 2130, And a sealant 2130 is provided on both sides of one end of the glass wall 2100 to improve the airtightness between the frame 3100 and the glass wall 2100. The glass wall 2100 is provided at one end with a glass block 2140 to prevent damage to the partition 2200 contacting the one end of the glass wall 2100 and to prevent the load of the glass wall 2100 . ≪ / RTI >

The glass window 2110 has a first window 2111 spaced apart from the window 1000 and a spacer 2220 at the rear of the first window 2111, And a second glass window 2112 spaced apart from the first window 2111 by a distance from the window frame 1000.

The partition member 2200 includes a first partition member 2210 that supports one end of the glass wall body 2100 and extends upward from an inner side surface of the glass wall body 2100, And an opening / closing device 2000 for opening / closing the opening / closing window 2000, which is formed by the first partitioning member 2210 and the azon 4000 and extending from the upper end of the first partitioning member 2210 toward the interior side, And a second partition member 2220 in which the first partition member 200 is installed.

The first partition member 2210 may be provided on the lower end and side surfaces of the glass wall body 2100 to support the glass wall body 2100 so as to be spaced apart from the window frame 1000 at a predetermined interval. The first partition member 2210 may be connected to the second partition member 2220 by having an extending partition member 2230 extending upward from the rear surface of the glass wall body 2100.

The first partition member 2210 may protrude from one end of the glass wall body 2100 to the lower end thereof in a 'C' shape.

The first partition member 2210 surrounds the first partition member 2210 provided at one end of the glass wall body 2100 and the heat transmitted through the glass wall body 2100 and the outside air flows through the first partition member 2210, A first partition member 2210 that is provided between the first partition member 2210 and the glass wall 2100 to reinforce the strength of the opening and closing window 2000, A corner zone 2213 for preventing a clearance between the wall 2100 and the first partition 2210 and a corner zone 2213 coupled to a lower end of the first partition 2210, 2100 may be provided with an outer air shutoff gasket 2214 for shielding the outside air passing through the space.

The heat insulating member 2211 is provided at one end of the glass wall 2100 to prevent heat bridging from being transmitted through the glass wall 2100 to the first wall 2200 As shown in FIG. The heat insulating member 2211 may be formed of polyamide and the lower end may include a fixing hole 2212 for fixing the outside air blocking gasket 2214. [ A plurality of the fixing holes 2212 are formed in the heat insulating member 2211 to fix the outside air blocking gasket 2214 for each of the plurality of fixing holes 2212 to block the heat flowing through the plurality of outside air blocking gaskets 2214 .

The corner zone 2213 may be provided in various sizes on the first partition member 2210 and may be reinforced against impacts due to load and external force transmitted through the glass wall body 2100, It is possible to prevent a gap between the ash 2210 and the glass wall 2100 from spreading.

The outside air shutoff gasket 2214 includes a fixing plate fixed to the fixing hole 2212 of the heat insulating member 2211 and a fixing plate 2240 extending downward from the fixing plate 224 to separate the window frame 1000 and the glass wall 2100 And a blocking gasket for blocking outside air passing through the space.

The blocking gasket may be formed in the fixing plate so as to protrude from the fixing plate, and fluidity may be secured so as to be closely contacted with the window frame 1000.

7, the first partition 2210 may block the heat transmitted through the glass wall 2100 and the outside air from entering the room, A partition zone 2215 for partitioning the first partition member 2210 at one end of the glass wall body 2100 may be further provided so as to ensure the heat insulation with the third interrupted line.

The partition zone 2215 may include an azon 4000 disposed between the first partition member 2210 and the extending partition member 2230 at one end of the glass wall body 2100. The partition zone 2215 may be provided at one end of the indoor side of the glass wall body 2100 to prevent a thermal bridging phenomenon between the first partition member 2210 and the extending partition member 2230.

The first partition 2210 having the partition zone 2215 may be provided below the glass wall 2100 and extended to the outdoor side of the glass wall 2100. Also, the first partition 2210 may have a separate plate on its front surface, and the outer heat shield gasket 2214 may be fixed with the heat insulating member 2211 wrapped around the protrusion. At this time, the heat insulating member 2211 prevents the surface of the first partition member 2210 formed of aluminum from being exposed, protects the painted surface of aluminum, and maintains uniformity in appearance color.

The second partition member 2220 is provided on the rear surface of the glass wall body 2100 so that an opening and closing device 200 for opening and closing the opening and closing window 2000 is coupled to the rear surface of the second partition member 2220, 4000) and extend to the indoor side. The second compartment member 2220 may be provided with a caulking material 2221 and a sealing material 2130 in order to prevent the thermal bridging at a position where the second compartment material 2220 contacts the glass wall body 2100, A gap between the second partition member 2220 and the glass wall body 2100 may be filled to prevent water leakage between the second partition member 2220 and the glass wall body 2100, can do.

The second partition member 2220 has a corner piece 5000 that prevents the reinforcement of the second partition member 2220 and prevents a gap from being generated at an assembled portion of the second partition member 2220 with respect to the opening / ).

The fixed frame 3000 includes a frame 3100 fixed to the window frame 1000 and contacting the partition member 2200 when the opening and closing window 2000 is closed and a frame 3100 provided on the outdoor side of the frame 3100, And a barrier 3300 for blocking heat bridging at a position where the partition member 2200 is in contact with the heat bridge member 3200. [

The frame 3100 includes a body frame 3110 provided on the window frame 1000 and having a corner piece 5000 for preventing the frame 3100 from being reinforced and widened, The extension frame 3120 extending upward from the rear surface of the partition member 2200 to the rear surface of the partition member 2200 and contacting the inner surface of the partition member 2200 and the coupling force between the body frame 3110 and the bridge member 3200 Which is protruded outward from the body frame 3110 to prevent slipping of the frame 3100 at a position where the frame 3100 is in contact with the heat bridge block 3200 and increases the heat insulating effect by the air layer formed by staggering, (Not shown).

The body frame 3110 may be provided on the upper portion of the window frame 1000 and may include a corner piece 5000 formed on the inner side thereof to prevent the frame 3100 from being reinforced and widened.

The extension frame 3120 may extend upward from the interior side of the body frame 3110 and the extension frame 3120 may extend to the interior side of the second compartment 2220 .

The extension frame 3120 blocks heat conduction transmitted by the second partition member 2220 at a position in contact with the second partition member 2220. When the opening and closing window 2000 is closed, A receiving portion 3121 in which a barrier material 3300 for impact mitigation is received may be provided between the extension frame 2220 and the extension frame 3120.

The accommodating portion 3121 is provided with a release preventing protrusion 3122 at an upper portion thereof to prevent the barrier material 3300 from being detached due to an impact and improve airtightness. In addition, external exposure of the accommodating portion 3121 can be minimized.

The support frame 3130 may protrude from the outer side and the lower side of the body frame 3110 and extend vertically from the rear end of the body frame 3110 protruding from the body frame 3110, The bonding force can be increased.

The support frame 3130 protruding from the lower end of the body frame 3110 may have a zigzag shape in a position in contact with the thermal bridge member 3200 to prevent the frame 3100 from slipping from the thermal bridge member 3200. [ An insulating pitch 3213 may be formed. The heat insulating pitch 3213 is formed in a zigzag shape to increase the heat insulating effect by generating the heat bridge member 3200 and the predetermined air layer and increase the frictional force with the heat bridge member 3200 to prevent the movement of the frame 3100 have. Therefore, it is possible to secure the structural stability by increasing the firmness with the thermal bridge member 3200.

The support frame 3130 may extend beyond the position where the support frame 3100 is in contact with the thermal bridge member 3200 and may extend to the lower end of the inner side of the frame 3100 to adjust the height of the frame 3100, A sealant 3400 is provided to prevent heat-bridge phenomenon and to prevent water leakage.

The sealant 3400 may be provided at a position where the thermal bridge member 3200 and the frame 3100 are in contact with each other, and a plurality of the sealant 3400 may block heat bridge phenomenon more effectively.

The thermal bridge member 3200 may be formed of ABS (Acrylonitrile Butadiene Cryrene) or PC, which is disposed between the partition member 2200 and the frame 3100 and has low thermal conductivity and is recyclable. The balance of physical properties and workability are excellent, and breakage due to external force can be prevented.

The heat bridge block 3200 blocks a thermal bridge between the frame 3100 and the partition member 2200 and is formed in a predetermined space in contact with the frame 3100 to fill the adhesive or form an air layer A main body part 3210 having a filling hole 3211 and a corner piece 5000 extending outdoors from the main body part 3210 and covering the accommodation space 1100 in the accommodation space 1100 And a fixing part 3220 formed at a position in contact with the frame 3100 at the inside of the main body part 3210 for fixing the frame 3100 in order to increase the coupling force with the frame 3100. [ (3230).

The body portion 3210 is provided between the frame 3100 and the partition member 2200 to prevent a heat bridge between the frame 3100 and the partition member 2200 A filling hole 3211 formed in a predetermined space and filled with an adhesive material, a heat insulating hole 3212 formed inside the window frame 3212 for preventing the outside air from flowing through the heat bridge block 3200 and improving the heat insulating performance, 1000 may be provided with an insulating insulation pitch 3213 which is provided at a position in contact with the window frame 1000 to prevent the heat bridge block 3200 from sliding on the window frame 1000 and to improve the heat insulation effect by the zigzag air layer .

The filling hole 3211 may be filled with an adhesive to increase the adhesive strength between the frame 3100 and the thermal bridge member 3200. The thermal barrier member 3200 may have a predetermined size So that it is possible to effectively prevent the heat bridging phenomenon transmitted through the partition member 2200 and the outside air shutoff gasket 2214.

In addition, the main body 3210 may include a corner piece 5000 for preventing the strength of the main body 3210 from being reinforced and widened. In addition, the first partition 2210 may include a corner piece The barrier material 3300 can be received at a position in contact with the extension partition material 2230.

The extension portion 3220 may extend outward from the body portion 3210 so as to cover the upper portion of the accommodation space 1100 formed on the outdoor side of the window frame 1000. The extension portion 3220 may have a length protruding from the outdoor side of the opening / closing window 2000 when the opening / closing window 2000 is closed, so as to cover the upper portion of the receiving space 1100.

When the opening / closing window 2000 is closed, the extension portion 3220 is in contact with the outside air blocking gasket 2214 provided at the lower end of the partition material 2200, so that the outside air blocking gasket 2214 and the foreign material Unlike the case in contact with the window frame 1000, the adhesion is high and the heat insulating effect can be enhanced.

In addition, the extension portion 3220 may be provided with a corner piece 5000 to prevent the extension portion 3220 from being reinforced and widened. The corner piece 5000 can prevent the extension portion 3220 from shrinking and expanding due to the ambient temperature or from being bent into the accommodation space 1100 due to external force. A sealant 3400 is provided between the outdoor side surface of the extension part 3220 and the window frame 1000 to prevent leakage of water or transfer of heat to the accommodation space 1100.

The support frame 3130 may be hooked on the side surface of the fastening portion 3230. The engaging portion 3230 can easily engage the frame 3100 with the heat bridge member 3200, thereby increasing the bonding force.

The barrier material 3300 has a heat insulating space inside to more effectively block the thermal bridging phenomenon transmitted through the second partition member 2220, mitigate the impact that may occur when the opening / closing window 2000 contacts with the room, And the watertightness can be increased and the space can be secured. The rear surface may be protruded to be received in the receiving portion 3121 of the frame 3100 and the heat bridge member 3200.

8, the heat-shrinkable barrier material 3200 includes a fixing body 3214 for fixing the azon 4000 to partition the frame 3100 and the window frame 1000, .

The fixing member 3214 may be fixed to the inner side surface of the heat bridge member 3200 and the azon 4000 may be provided between the fixing member 3214 and the frame 3100.

At this time, the outdoor side surface of the frame 3100 is formed in a shape corresponding to the fixing body 3214 and the azon 4000 is fixed to the outdoor side surface of the fixing body 3214 and the frame 3100 .

8, the partition member 2200 of various embodiments may be coupled to the fixed frame 3000 provided with the fixing member 3214. [

9, the glass wall 2100 is formed such that the first glass window 2111 is extended from the second glass window 2112 toward the window frame 1000, The partition member 2200 provided on the rear surface of the window 2111 may be formed as an exposed surface.

The second window 2112 may be spaced apart from the window 1000 by a predetermined distance by the first window 2111 and the spacer 2220. [ have.

The partition member 2200 may be provided in a space between the second window 2112 and the window 1000 on the rear surface of the first window 2111 and may be provided on the rear surface of the first window 2111 Barrier material 3300 can be prevented from being pushed back or broken by the external force of the first window 2111 and the heat bridging phenomenon transmitted through the first window 2111 can be prevented.

10, when the glass wall 2100 has a third glass window 2113 on the rear surface thereof and is formed as a triple wall, the glass wall 2100 is provided under the glass wall 2100 And at least one of the outside air blocking gaskets 2214 may be provided and the compartment zone 2215 may be provided at the center of one end of the glass wall body 2100 so that the indoor side and the outdoor side of the glass wall body 2100 are It is possible to block the heat bridge phenomenon.

Hereinafter, in describing the multi-insulation opening / closing window system according to another embodiment of the present invention, the same reference numerals as those of the multi-opening opening / closing window system according to the above-described embodiment use the same reference numerals, It is omitted.

11 is a cross-sectional view showing another embodiment of the multi-insulation opening / closing window system shown in FIG. 11, and FIG. 14 is a cross- FIG. 15 is a cross-sectional view illustrating a state in which a window glass system 1000 is installed in a window frame 1000 having a front surface opened according to another embodiment of the present invention. FIG. Sectional view showing a multi-insulation opening / closing window system.

11 to 15, the multi-insulating opening and closing window system according to another embodiment of the present invention includes a window frame 1000 having an accommodation space 1100 on the outdoor side, A glass wall 2100 having a glass window 2110 spaced apart by a predetermined distance and formed of double or triple glass and a glass wall 2110 having a glass door 2110 having a space for separating the glass wall 2100 and the window 1000, An opening and closing window 2000 having a partition 2200 provided on the inner side of the glass wall 2100 and rotated to open and close the glass wall 2100 in the window 1000, A frame 3100 which is fixed to the opening and closing window 2000 and is in contact with the partition member 2200 when the opening and closing window 2000 is closed and a part of the frame 3100 extending outwardly of the frame 3100 and accommodated in the inside of the accommodation space 1100 The outdoor air and the heat radiation transmitted through the window frame 1000 The barrier material may be provided with thermal bridges 3200, and the partition member fixed frame (3000) to (2200) is provided with a barrier material (3300) for interrupting thermal bridges in the contact position to block.

The window frame 1000 may include a receiving space 1100 on the outdoor side and the window 2000 may include a glass wall 2100 rotated at a predetermined angle by the angle adjusting device 100, And the partition member 2200 provided with the opening / closing apparatus 200 may be provided.

The stationary frame 3000 may include a frame 3100 contacting the partition member 2200 and a heat bridge member 3200 provided on the outdoor side of the frame 3100 to block thermal bridge phenomena.

The heat bridge block 3200 may be formed in a predetermined space at a position where the heat bridge block 3200 blocks heat bridging between the frame 3100 and the partition 2200 and is in contact with the frame 3100, A main body portion 3210 having a filling hole 3211 to be filled therein and a corner piece 3210 extending outward from the main body portion 3210 and accommodated in the accommodation space 1100 to prevent strength reinforcement and widening The frame 3100 is formed at a position in contact with the frame 3100 on the inner side of the main body 3210 to enhance a coupling force between the frame 3100 and the frame 3100. [ And an engaging portion 3230 to be fixed.

The extension portion 3220 includes a first extension portion 3221 provided on an outdoor side of the accommodation space 1100 to block heat bridging transmitted through the window frame 1000, And a second extension part 3222 provided at the upper end of the accommodation space 1100 and in contact with the opening / closing window 2000.

The first extension portion 3221 may be formed on the inner side of the inner space of the accommodation space 1100 and may be formed in the vertical direction with a length equal to the depth of the accommodation space 1100. The first extending portion 3221 may be provided with a corner piece 5000 for preventing the reinforcement and the widening and contraction of the first extending portion 3221. Between the first extending portion 3221 and the wall of the receiving space 1100, A separate heat insulating material may be provided.

It is possible to prevent the thermal bridging phenomenon transmitted through the window frame 1000 contacting the outside air by the first extension part 3221 and to improve the adhesion with the partition material 2200 when the upper opening / closing window 2000 is closed, .

11, the second extending portion 3222 may be provided on the upper side of the first extending portion 3221 and may be coupled to the main body 3210 at one end thereof.

The second extending portion 3222 may be provided with a corner piece 5000 for reinforcing the strength and preventing flaring and contraction as in the case of the first extending portion 3221. Unlike the first extending portion 3221, the second extending portion 3222 is provided only in the upper portion of the receiving space 1100, so that an air layer is formed in the receiving space 1100 to enhance the heat insulating effect.

While the present invention has been described in connection with the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Those skilled in the art, who understands the spirit of the present invention, can readily suggest other embodiments by adding, changing, deleting, adding, or the like of components within the scope of the same idea, I would say.

1000: window frame 1100: accommodation space
2000: opening / closing window 2100: glass wall
2200: partition member 3000: fixed frame
3100: frame 3200: thermal bridge block

Claims (20)

A window frame having an accommodation space in an outdoor side,
A glass wall having a glass window which is spaced apart from the accommodation space by a predetermined distance and which is formed of double or triple glass and a glass window which is provided on the inner side of the glass wall to increase the heat insulating effect of the spacing space formed between the glass wall and the window frame An opening / closing window provided in the window frame for rotating the glass wall so as to open / close to the outdoor side;
A frame which is fixed to the window frame and contacts the partition when the opening and closing window is closed; a heat bridge block which is provided on the outdoor side of the frame and extends to cover the upper portion of the accommodation space to block heat bridge phenomenon by outside air; And a blocking member for blocking a thermal bridging phenomenon at a contacting position,
Wherein the thermal bridge member comprises a main body having a filling hole formed in a predetermined space at a position in contact with the frame to block heat bridging between the frame and the partition member and filled with an adhesive,
An extension part extending from the body part to the outdoor side and covering the accommodation space and having a corner piece in the accommodation space side,
And a locking part formed at a position in contact with the frame at the inside of the main body to fix the frame so as to increase the coupling force with the frame.
The method according to claim 1,
Wherein the glass window comprises a first glass window spaced apart from the window frame by a predetermined distance,
And a second glass window formed on the rear surface of the first window so as to be spaced apart from the window pane by a spacer and spaced apart from the window pane.
The method according to claim 1,
The partition member includes a first partition member which supports one end of the glass wall and extends upward from an inner side surface of the glass wall,
And a second partition member partitioned by the first partition member and the azon member and extending from the upper end of the first partition member toward the interior side and provided with an opening / closing device for opening / closing the opening / closing window. Insulated opening and closing window system.
The method of claim 3,
Wherein the first partition member surrounds the first partition member provided at one end of the glass wall and blocks the heat transmitted through the glass wall and the outside air from being transmitted to the first partition member,
A corner zone provided between the first compartment and the glass wall to reinforce the strength of the opening and closing window and to prevent a clearance gap between the glass wall and the first compartment,
And an outer air shutoff gasket coupled to a lower end of the first partition to block outside air transmitted through the space between the window frame and the glass wall.
The method of claim 3,
Wherein the first partition member further comprises a partition zone for partitioning the first partition member at one end of the glass wall so as to prevent the heat transmitted through the glass wall and the outside air from flowing into the room Insulated opening and closing window system.
The method of claim 3,
The second compartment being provided between the glass wall and the second compartment to block thermal bridging transmitted through the glass wall,
And a corner piece provided on the inside of the second partition to prevent the reinforcement of the second partition and the expansion of the second partition.
The method of claim 3,
The frame includes a body frame provided on a top of the window frame and having a corner piece for preventing reinforcement and widening of the frame,
An extension frame extending upward from a rear surface of the body frame to a rear surface of the partition member,
In order to increase the coupling force between the body frame and the heat bridge member, a slip protruding outward from the body frame and in contact with the heat bridge member is provided to prevent slipping of the frame and a zigzag- And a support frame provided on the support frame.
delete The method according to claim 1,
Wherein the main body comprises a filling hole which is provided between the frame and the partition member and blocks a heat bridge between the frame and the partition member and is formed in a predetermined space in contact with the frame and filled with an adhesive,
In order to prevent the outside air from flowing through the heat bridge block and to improve the heat insulation performance,
And a heat insulating pitch provided at a position in contact with the window frame to prevent the heat bridge block from slipping on the window frame and to increase the heat insulating effect by an air layer formed by staggering.
10. The method of claim 9,
Wherein the main body further comprises a fixture for fixing the azon which compartmentalizes the frame so as to block the heat bridging between the frame and the window frame.
A window frame having an accommodation space in an outdoor side,
A glass wall having a glass window which is spaced apart from the accommodation space by a predetermined distance and which is formed of double or triple glass and a glass window which is provided on the inner side of the glass wall to increase the heat insulating effect of the spacing space formed between the glass wall and the window frame An opening / closing window provided in the window frame for rotating the glass wall so as to open / close to the outdoor side;
A frame that is fixed to the window frame and contacts the partition when the opening and closing window is closed; a thermal bridge member that extends to the outdoor side of the frame and is partially received inside the accommodation space to block heat bridge phenomenon transmitted through the outer frame and the window frame; And a blocking member for blocking a thermal bridging phenomenon at a position where the partition member contacts,
Wherein the thermal bridge member comprises a main body having a filling hole formed in a predetermined space at a position in contact with the frame to block heat bridging between the frame and the partition member and filled with an adhesive,
An extension part extending from the body part to the outdoor side and accommodated in the accommodation space, the extension part having a corner piece for preventing the reinforcement and the widening of the inner part from occurring,
And a locking part formed at a position in contact with the frame at the inside of the main body to fix the frame so as to increase the coupling force with the frame.
12. The method of claim 11,
Wherein the glass window comprises a first glass window spaced apart from the window frame by a predetermined distance,
And a second glass window formed on the rear surface of the first window so as to be spaced apart from the window pane by a spacer and spaced apart from the window pane.
13. The method of claim 12,
The partition member includes a first partition member which supports one end of the second window and extends upward from an inner side surface of the glass wall,
A heat insulating member which encloses the first compartment and blocks the heat transmitted through the first compartment from being transmitted to the first compartment,
An outside air blocking gasket coupled to a lower end of the first partition member to block external air transmitted through a space between the window frame and the glass wall,
A compartment zone for partitioning the first compartment at one end of the glass wall to prevent the heat transmitted through the glass wall and the outside air from entering the room,
And a second partition member partitioned by the first partition member and the azon member and extending from the upper end of the first partition member toward the interior side and provided with an opening / closing device for opening / closing the opening / closing window. Insulated opening and closing window system.
14. The method of claim 13,
The second compartment being provided between the glass wall and the second compartment to block thermal bridging transmitted through the glass wall,
And a corner piece provided on the inside of the second partition to prevent the reinforcement of the second partition and the expansion of the second partition.
11. The method of claim 10,
The frame includes a body frame provided on a top of the window frame and having a corner piece for preventing reinforcement and widening of the frame,
An extension frame extending upward from a rear surface of the body frame to a rear surface of the partition member,
In order to increase the coupling force between the body frame and the heat bridge member, a slip protruding outward from the body frame and in contact with the heat bridge member is provided to prevent slipping of the frame and a zigzag- And a support frame provided on the support frame.
13. The method of claim 12,
The frame includes a body frame provided on an upper portion of the window frame and having a corner piece for preventing a contraction due to contraction and expansion of the frame,
An extension frame extending upward from the rear surface of the body frame to a rear surface of the partition member to maintain a predetermined distance from the partition member,
And a barrier member for blocking a thermal bridging phenomenon transmitted from the partition member at a position in contact with the partition member.
delete 12. The method of claim 11,
Wherein the main body comprises a filling hole which is provided between the frame and the partition member and blocks a heat bridge between the frame and the partition member and is formed in a predetermined space in contact with the frame and filled with an adhesive,
In order to prevent the outside air from flowing through the heat bridge block and to improve the heat insulation performance,
And a heat insulating pitch provided at a position in contact with the window frame to prevent the heat bridge block from slipping on the window frame and to increase the heat insulating effect by an air layer formed by staggering.
12. The method of claim 11,
Wherein the main body further comprises a fixture for fixing the azon which compartmentalizes the frame so as to block the heat bridging between the frame and the window frame.
12. The method of claim 11,
The extension portion includes a first extension portion provided on an outdoor side surface of the accommodation space to block heat bridging phenomenon transmitted through the window frame,
And a second extension part provided on the upper side of the first extended part to the room side and in contact with the opening / closing window at the upper end of the accommodation space.

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