KR101630675B1 - heat shield type window structure - Google Patents

Abstract

The present invention relates to a high efficiency heat insulating reinforcing window structure according to a new type which can prevent the outdoor temperature from being conducted to the room through the chassis assembly and the window assembly to improve the heat insulating performance.
To this end, the present invention provides a chassis assembly comprising a pair of vertical side window frame frames and a pair of horizontal side window frame frames coupled together in a rectangular frame structure; A pair of window assemblies installed in the chassis assembly and including a window and a window frame supporting the window; The window frame frame is formed of a different material from the window frame frame and is provided separately from the window frame frame, and one end is coupled to the window frame frame and the other end is protruded in the opposite direction between the window frame frames, And a partition formed by partially forming a space between the window frames and having a cavity formed therein to have an air layer therebetween.

Description

[0001] The present invention relates to a heat shield type window structure,

The present invention relates to a window structure, and more particularly, to a high-efficiency, heat-insulating, reinforced window structure according to the present invention, which can prevent the outdoor temperature from being conducted to the room through the chassis assembly and the window assembly, .

Generally, a window structure is a structure including a chassis assembly embedded in an open formed portion of a building wall surface and a window assembly openably and closably installed in the chassis assembly.

Among the window structures, the chassis assembly includes a pair of horizontal side window frame frames forming upper and lower window frames, and a pair of vertical window frame frames forming left and right window frames.

In addition, the window assembly of the window structure includes a window and a window frame for restricting the window.

Meanwhile, although the above-described window structure has a variety of structures, a sliding window type window structure that opens and closes a window with a sliding door structure is mainly used. Such a sliding window type window structure is usually formed by a pair of window assemblies And is installed in the chassis assembly to be opened and closed in a sliding manner.

At this time, the guide rails are protruded from the opposite sides of the two horizontal side window frame frames constituting the chassis assembly, so that the two window assemblies are guided by the guide rails and can perform accurate sliding movement.

However, in the case of the above-described sliding door type window structure, since the two window assemblies are slidably installed while being spaced apart from each other, the outside air flows into the space between the chassis assembly and the window assembly or between the window assemblies, There is a disadvantage that the heat insulating property is low.

Conventionally, a nonwoven fabric, a glass or a gasket is applied between the clearance between the chassis assembly and the window assembly or between the clearances between the two window assemblies to improve the heat insulation property. In this regard, in the related Utility Model No. 20-0183492 , Registration Practical Utility Model No. 20-0201605, Registration Practical Utility Model No. 20-0362211, Registration Utility Utility Model No. 20-0362227, and the like.

However, the above-described conventional techniques are not excellent in the heat insulating effect due to the phenomenon that the outdoor heat (or cold air) is conducted to the room through the chassis assembly, despite the application of various insulation structures.

Of course, in recent years, a variety of techniques have been proposed to prevent the deterioration of the heat insulation effect through windows by constructing a window constituting a window assembly into a double pane (or a multiple pane structure). However, (Or cold air) is conducted to the room through a window frame rather than being conducted to the inside of the room. However, even if the window is configured as a multi window structure, There was a problem that did not succeed.

SUMMARY OF THE INVENTION The present invention has been made in order to solve various problems of the related art described above, and it is an object of the present invention to provide a chassis assembly and a window assembly which can prevent the outdoor temperature from being conducted to the room through the chassis assembly and the window assembly, And to provide a highly efficient insulation reinforced window structure according to a new type.

According to an aspect of the present invention, there is provided a high efficiency heat insulating reinforcing window structure, comprising: a chassis assembly having a pair of vertical side window frame frames and a pair of horizontal side window frame frames coupled together in a rectangular frame structure; A plurality of window assemblies installed in the chassis assembly and including a window and a window frame supporting the window; The window frames are formed of materials different from those of the window frame frames and are provided separately from the window frame frames, one end is coupled to each window frame frame and the other end is protruded in the opposite direction between the window frame frames, And a partition which is positioned so as to partially block the window frames and has a cavity formed therein to have an air layer.

In addition, each window frame frame constituting the chassis assembly is divided into an indoor side and an outdoor side and is spaced apart from each other, and one end of each partition is coupled between the separated portions of the respective window frame frames.

In addition, each of the compartments may be formed of an insulating material having a thermal conductivity lower than that of the chassis assembly.

In addition, among the wall surfaces of the partition portions, a wall portion facing the window frame of the window assembly is provided with a seal member which is in close contact with the surface facing the window frame and closes the gap with the surface.

Further, the window frame of each window assembly may further include a hermetic member that extends toward the side where the partition is located and keeps airtight by blocking a gap between the two window frames, And a stopper block for separating the hermetic member from being excessively moved.

As described above, the high-efficiency heat-insulating reinforced window structure of the present invention has the effect of minimizing the outside air temperature from being conducted to the room by the heat conduction through the structural improvement of the horizontal side partition and the vertical side partition and additionally providing the airtight member I have.

Particularly, each partition forming the heat insulating reinforcing window structure of the present invention is formed of a heat insulating material, and the inside is formed to have an air layer and is installed between divided portions of each window frame frame divided into an indoor side and an outdoor side, It is possible to further reduce the conduction.

In addition, the heat insulating reinforcing window structure of the present invention has an effect of more stably preventing the outdoor air temperature from being introduced into the room through heat conduction through structural improvement of the window frame constituting the window assembly.

In addition, the heat insulating reinforced window structure according to the present invention prevents excessive sliding movement of each window assembly through the provision of a stopper block, and more particularly, it is provided with a first seal member installed in the horizontal side partition, The gap between each window frame and the gap between the window frame and each partition can be perfectly sealed by the second seal member provided on the stopper block and the third seal member and the hermetic member provided on the stopper block, So that it is possible to improve the heat insulating property of the room.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a plan view illustrating a heat insulating reinforced window structure according to an embodiment of the present invention; FIG.
FIG. 3 is an enlarged view illustrating a structure of another example of a window frame of a heat insulating reinforcing window structure according to an embodiment of the present invention.
4 is a longitudinal sectional view for explaining an adiabatic reinforcement type window structure according to an embodiment of the present invention.
5 is a perspective view illustrating a structure between a horizontal partition and a stopper block of a heat insulating reinforced window structure according to an embodiment of the present invention.
6 to 8 are sectional views illustrating a heat insulating reinforced window structure according to another embodiment of the present invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a heat insulating reinforced window structure according to the present invention will be described with reference to FIGS. 1 to 8 attached hereto.

1 and 2 are plan views illustrating a heat insulating reinforced window structure according to an embodiment of the present invention. FIG. 4 is a cross-sectional view of a heat insulating reinforced window structure according to an embodiment of the present invention. FIG.

As shown in these drawings, the heat insulating reinforced window structure according to an embodiment of the present invention comprises a chassis assembly 100, a window assembly 200, and partitioning parts 300 and 400, Each of the window frame frames 110 and 130 constituting the assembly 100 is formed to be divided into an indoor side and an outdoor side respectively and the partition portions 300 and 400 are formed to have an air layer therein, So that it is possible to prevent the outside air temperature from being conducted to the room.

This will be described in more detail below for each configuration.

First, the chassis assembly 100 is installed at an opening portion of a wall surface of a building.

The chassis assembly 100 includes a pair of vertical side window frame frames 110 forming left and right side wall surfaces and a pair of horizontal side window frame frames 130 forming upper and lower side wall surfaces. The vertical side window frame 110 and the pair of horizontal side window frames 130 are coupled in a rectangular frame structure to form the chassis assembly 100.

In addition, guide members 131 for sliding movement of the window assembly 200, which will be described later, are respectively protruded from the pair of horizontal side window frame frames 130, When the window assembly 200 to be described later is in the closed position, the receiving members 111 partially received in the window assembly 200 are protruded.

Although the chassis assembly 100 is formed of a metal material to secure strength, the chassis assembly 100 may be formed of a ceramic material or a resin material, if necessary.

The window assembly 200 includes a window 210 and a window frame 220, which are slidably installed in the chassis assembly 100.

Here, the window 210 may be formed as a double or multi-window structure having an air layer so that indoor conduction of the outside air can be completely blocked. In an embodiment of the present invention, An example is a triple with two air layers.

In addition, the window frame 220 is formed as a square frame structure that supports the window 210 while surrounding the window 210, and the horizontal frame 220 of the window frame 220 And a guide recessed portion 221 is formed on the opposite side of the window frame 220 so as to receive the guide member 131. On the surface of the window frame 220 facing the vertical side window frame 110, And a pressing member 225 is provided in the receiving recessed portion 222, respectively. At this time, the pressing member 225 is configured to forcibly move the two window assemblies 200 in the direction opposite to each other by the gradual contact by the housing member 111 when the window assembly 200 is closed.

Particularly, the window frame 220 is composed of a table skin 223 made of aluminum or synthetic resin and having a filling space therein, and a heat insulating material 224 filled in the filling space of the table skin 223 . That is, the structure of the window frame 220 incorporating the heat insulating material 224 prevents the outside air from being conducted to the room through the window frame 220. Of course, after the tablet skin 223 of the window frame 220 is partially formed, the heat insulating material 224 may be fixed to the recessed portion, as shown in FIG.

In addition, the window assembly 200 is provided in a pair, wherein one window assembly is located on the indoor side, and the other window assembly is positioned on the outdoor side so that the window assembly 200 can be mounted on the chassis assembly 100 without interfering with each other. And the two window assemblies 200 cooperate with each other to open or close the chassis assembly 100.

At this time, when the two window assemblies 200 are closed and the indoor and the outdoor are shut off, one side of the window frame 220 constituting each window assembly 200 is positioned on the vertical side of the chassis assembly 100 The window frame 220 is positioned adjacent to the window frame 220 and the other side portion of the window frame 220 is positioned in parallel with the other side portion of the window frame 220 constituting the other window assembly 200 .

Next, the partitioning parts 300 and 400 prevent the two window assemblies 200 from tilting and unintentional dislodgement, as well as the inflow of outside air through the gaps between the chassis assembly 100 and the window assemblies 200 And the heat conduction is also cut off, thereby achieving a high efficiency of heat insulation.

The partition 300 and 400 are divided into a horizontal partition 300 coupled to the horizontal sidewall frame 130 and a vertical partition 400 coupled to the vertical sidewall frame 110.

Here, the horizontal partition 300 is installed so as to protrude from two horizontally side window frame frames 130 constituting the chassis assembly 100 across a portion where the two window assemblies 200 are movably installed .

In particular, in an embodiment of the present invention, the horizontal side partition frame 300 is formed to have an air layer 301 therein as shown in FIGS. 4 and 5, And one end of the horizontal partition 300 is coupled between the divided portions of the two horizontal side window frames 130. The horizontal partition 300 is divided into two parts, .

That is, considering that the outside air can be conducted to the room through the horizontal partition 300, the inside of the horizontal partition 300 is formed into a structure having the air layer 301, In the case of the conventional chassis assembly 100, since the outside air temperature through the chassis assembly 100 can be thermally conducted to the room, the chassis assembly 100 can be thermally transferred to the inside of the chassis assembly 100, Each of the horizontal side window frame frames 130 is divided into two parts and the divided parts are connected to the horizontal side partitions 300 so that the outside air temperature can be prevented from being conducted to the room.

At this time, it is suggested that the horizontal partition 300 is made of a polyamide material, thereby minimizing heat conduction through the horizontal partition 300, thereby improving heat insulation.

In addition, two wall surfaces of two wall assemblies (200) facing the two window assemblies (200) of the two horizontal side partitions (300) are in contact with the opposed faces of the respective window assemblies (200) And a seal member 610, respectively. That is, the flow of outside air through the gap between the horizontal side window frame 130 and the window frame 220 constituting each window assembly 200 can be blocked through the first seal member 610.

The first seal member 610 includes a fixed end 611 fixed to a wall surface of the horizontal partition 300 and a plurality of protrusions 611 protruding from the outer surface of the fixed end 611, It is shown that each of the close-contact pieces 612 is formed to be inclined upward or downward, and the airtightness against the clearance (a gap between the horizontal window frame frame and the window frame) So that it can be improved.

The vertical partition 400 is installed to extend from the two vertical window frame frames 110 constituting the chassis assembly 100 to a position where the window assemblies 200 are movably installed .

In particular, in one embodiment of the present invention, the vertical side partition frame 400 is formed to have an air layer 401 therein, as shown in FIGS. 1 and 2, The vertical side partition 400 is separated from the vertical side window frame 110 and is separated from the vertical side window frame 110. In addition, .

That is, considering that the outside air can be conducted to the room through the vertical side partition 400, the inside of the vertical side partition 400 is formed into a structure having the air layer 401, In the case of the conventional chassis assembly 100, since the outside air temperature through the chassis assembly 100 can be thermally conducted to the room, the chassis assembly 100 can be thermally transferred to the inside of the chassis assembly 100, Each of the vertical side window frame frames 110 is divided and formed so that the divided portions are connected to the vertical side partition 400 so that the outside air temperature can be prevented from being conducted to the room.

At this time, it is suggested that the vertical partition 400 is formed of a polyamide material, thereby minimizing thermal conduction through the vertical partition 400, thereby improving heat insulation.

A wall surface of each of the two vertical side walls 400 opposed to the window frame 220 is closely attached to the window frame 220 and closes a gap with the window frame 220. [ 2 seal member 620 is provided. That is, the flow of the outside air through the gap between the vertical side window frame 110 and the window frame 220 can be blocked through the second seal member 620.

The second seal member 620 includes a fixed end 621 fixed to the wall surface of the vertical partition 400 and a plurality of second protrusions 621 protruding from the outer surface of the fixed end 621 It is suggested that each of the close contact pieces 622 is formed to be inclined to the left or right side so that the tightness against the gap (the gap between the vertical side window frame frame and the window frame) So that it can be improved.

Reference numerals 320 and 420 denote coupling plates assisting the respective divided parts of the window frame frames 110 and 130 to join together with the respective divided parts 300 and 400.

In the embodiment of the present invention, on the opposite wall surfaces between the window frames 220 constituting the two window assemblies 200, the horizontal partition 300 extends toward the side where the horizontal partition 300 is located, And a hermetic member 530 that keeps airtight by blocking the gap is further included, and a stopper block 310 is further provided on a central side surface of the horizontal side partition 300.

At this time, the hermetic member 530 is made of a rubber material that can be elastically deformed so that the gap between the two window frames 220 can be completely blocked, and the inside has an air layer 531, Lt; / RTI >

The stopper block 310 is configured to block the hermetic member 530 from being excessively moved. In particular, the stopper block 310 is configured to be detachably coupled to the horizontal partition 300 So that the occurrence of interference by the stopper block 310 when the window assembly 200 is attached and detached can be eliminated.

4 and 5, a separate seal member (hereinafter referred to as a " third seal member ") is also provided on a surface of the stopper block 310 opposite to the window frame 220, (630), so that it is possible to prevent the outside air from being introduced into the room.

The third seal member 630 includes a fixed end 631 fixed to both side walls of the stopper block 310 and a plurality of protrusions 631 protruding from the outer surface of the fixed end 631 in the left- And the tight contact pieces 632 are formed to be inclined to the left or right side.

Of course, the stopper block 310 may be omitted by integrally molding the structure of the stopper block 310 on the surface of each of the horizontal side partition parts 300. However, considering that interference occurs due to the protruding height of the stopper block 310 in the process of joining the window assembly 200 to the chassis assembly 100, the stopper block 310 may be divided into the horizontal partition 300 and may be detachably coupled to the horizontal partition 300.

Hereinafter, the operation of the heat insulating reinforcing window structure according to an embodiment of the present invention will be described in more detail.

First, FIG. 2 shows a state in which one of the two window assemblies 200 is opened.

That is, when one of the window assemblies 200 is guided by the guide member 131 protruding from the horizontal window frame 130 of the chassis assembly 100, The portion where the window assembly 200 was originally positioned before the window assembly 200 is opened is opened.

Meanwhile, when the window assembly 200 is returned to the initial position in the above-described state, another window assembly 200 as shown in FIG. 1 closes one side of the chassis assembly 100, One of the window assemblies 200 closes the other side of the chassis assembly 100.

At this time, when any one of the window assemblies 200 is moved to the fully closed position, the hermetic member 530 abuts against the stopper block 310 to stop further movement. The pressing member 225 provided in the receiving recessed portion 222 of the window assembly 200 is moved in the forward and backward directions of the window assembly 200 by gradually contacting the receiving member 111 provided in the chassis assembly 100, As the two window frames 220 positioned in the opposite directions of the two window assemblies 200 are gradually adjacent to each other, the respective airtight members 220 located between the two window frames 220 are moved in the opposite direction to each other, (530) are gradually brought into close contact with the opposite surfaces of the two window frames (220).

Therefore, when the chassis assembly 100 is closed by the two window assemblies 200, the hermetic members 530 provided in the two window assemblies 200 are positioned on opposite sides of the two window assemblies 200 By blocking the left and right gaps between the two window frames 220, the outside air can be prevented from flowing into the room through the gap between the two window frames 220.

Particularly, the first seal member 610 provided on both side walls of the two horizontal side partitions 300 is in close contact with the window frame 220 on the opposite side thereof to block the air flow in the vertical direction, The second seal member 620 provided in the side partition part 400 is in close contact with the window frame 220 facing the second seal member 620 to block the air flow in the left and right direction, The space between the vertical partitioning part 400 and the window frame 220 is also prevented from entering the room.

In addition, considering that the two horizontal side partitions 300 and the two vertical side partitions 400 are formed of a polyamide material in addition to the hollow structure having the air layers 301 and 401 therein, the thermal conductivity of the outside air temperature is minimized It is possible to obtain more excellent heat insulating property.

In addition, although the temperature of the outside air can be conducted through the chassis assembly 100 positioned on the outdoor side, the two vertical side window frame frames 110 and the two horizontal side window frame frames 130 constituting the chassis assembly 100 And the horizontal partition 300 and the vertical partition 400 are positioned between the divided parts, respectively, thereby preventing the outside air temperature from being transmitted to the room through the chassis assembly 100 to the outside.

As a result, the heat-insulating reinforced window structure according to the present invention is improved in the structural improvement of the horizontal partition 300 and the vertical partition 400 and the additional provision of the hermetic member 530, Can be minimized.

In addition, the structural improvement of the window frame 220 constituting the window assembly 200 can more stably prevent the outside air temperature from being introduced into the room by heat conduction.

In addition, the heat insulating reinforced window structure according to the present invention prevents excessive sliding movement of each window assembly 200 through the provision of the stopper block 310, and in particular, The second seal member 620 provided on the vertical side partition member 400 and the third seal member 630 and the hermetic member 530 provided on the stopper block 310 are provided on the respective windows 610, Since the gap between the frame 220 and the gap between the window frame 220 and each of the dividing sections 300 and 400 can be completely sealed, the indoor inflow of the outside air through each gap can be cut off from the original, .

The heat insulating reinforcing window structure according to the present invention is not limited to the structure in which both window assemblies 200 are slidingly moved.

In other words, as shown in FIGS. 6 and 7, any one window assembly 200 can be applied to a structure in which only one window assembly 200 is slid while being fixed.

In addition, the heat insulating reinforced window structure according to the present invention can be applied to a double window structure as shown in FIG. 8, and therefore, the technical features relating to the heat insulating reinforced window structure of the present invention It is understandable that rights are applicable to both single windows as well as multiple windows.

100. chassis assembly 110. vertical side window frame
111. Housing member 130. Horizontal side window frame
131. Guide member 200. Window assembly
210. Window 220. Window frame
221. Guide joint part 222. Acceptance joint part
223. Table skin 224. Insulation
225. Pressure member 300. Horizontal side partition
310. Stopper block 400. Vertical side partition
320,420. The coupling plate 530. The airtight member
301, 401, 531. Air layer 610. First seal member
620. Second Seal Member 630. Third Seal Member
611, 621, 631. Fixed ends 612, 622, 632. Close contact

Claims (5)

A chassis assembly having a pair of vertical side window frame frames and a pair of horizontal side window frame frames coupled together in a rectangular frame structure;
A plurality of window assemblies each including a window installed to be horizontally slidably movable on an outdoor side and an indoor side of the chassis assembly, and a window frame supporting the window;
The window frames are formed of materials different from those of the window frame frames and are provided separately from the window frame frames, one end is coupled to each window frame frame and the other end is protruded in the opposite direction between the window frame frames, And a partition formed of a heat insulating material, the cavity being formed to partially block the window frames and having an air layer therein,
Wherein each of the window frame frames constituting the chassis assembly is divided into an indoor side and an outdoor side and is spaced apart from each other, and one end of each of the partitioning portions is spaced apart from an outer peripheral side spacing portion of the window frame frame on the divided indoor side and the window frame frame on the outdoor side, The divided window frame frames being positioned on the inner side of the spaced portion,
A joint plate of a heat insulating material is further joined to an outer side of the separated portion of the divided window frame frame on the indoor side and the window frame frame on the outdoor side to separate the two window frame frames with the divided portion ≪ / RTI >
A guide member for sliding movement of the window assembly is protruded from the pair of horizontal side window frame frames, and when the window assembly is in the closed position, the pair of vertical side window frame frames are partially received in the window assembly The housing member is formed to protrude,
And a hermetic member for sealing the gap between the two window frames so as to maintain the airtightness, and at the same time, the central side of the horizontal side partition A stopper block is further provided on the surface,
The hermetic member is formed of a rubber material capable of being elastically deformable so as to block a gap between two window frames and to have a structure having an air layer inside to reduce heat conduction,
Wherein a receiving recess is formed in each of the opposite surfaces of the window frames facing the vertical side window frame and each of the receiving recesses is formed in the receiving recessed portion so as to be gradually protruded toward the receiving recess, The pressing members are forced to move in the opposite directions between the two window assemblies by the gradual contact of the pressing members with the receiving members during the closing operation of the window assemblies and both side surfaces of the hermetic members are pressed against the wall surfaces of the two window frames And the hermetic sealing structure is formed so as to be in close contact with each other. delete delete The method according to claim 1,
Wherein a wall part of each of the partition walls facing the window frame of the window assembly is provided with a seam part which is in close contact with the facing surface of the window frame and closes the gap with the window frame, structure. delete

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