KR102455797B1 - Insulation window for improve insulation performance - Google Patents

Abstract

The present invention is a heat-insulated window, comprising an outer sash (10) fixed to the window frame (70), and an inner sash (20) that opens the window by sliding after four sides are opened by a tilt operation, and the inner The window glass 20 is installed on the lower side of the side of the glass window 22 so that the area of the glass window 22 in the inner window pair 20 is widened while the glass window 22 for improving thermal insulation performance and the inner window pair 20 are slidingly operated. It is composed of a roller 30 that becomes a roller in a general sliding window by installing the roller 30 on the lower side of the glass window 22 when installing the insulating window and making the area occupied by the glass window 22 in the window relatively maximized. Compared to the method of installing glass on the upper part, it allows the glass to be inserted up to the lower outer surface of the window so that the aluminum part, which is weak in insulation, can be insulated from the outside, which has an excellent insulation performance.

Description

Insulated windows with improved insulation performance {INSULATION WINDOW FOR IMPROVE INSULATION PERFORMANCE}

The present invention relates to insulated windows and doors, and more particularly, to insulated windows and doors capable of improving thermal insulation performance by maximizing the area of a glass window when installing insulated windows.

The window insulation method is being used to prevent energy loss and condensation due to high thermal conductivity, which is a major disadvantage of aluminum, which is currently used the most as a window material for construction.

Azone insulation method and a method using polyamide strip are mainly used for the insulation method of aluminum windows. In the Azone insulation method, a single aluminum profile with a filling part of high-strength polyurethane is used to fill and harden high-strength polyurethane in liquid state. It is a method that blocks internal and external heat conduction by cutting the aluminum at the bottom after the process is completed. In the case of a polyamide strip method, a strip is inserted between different internal and external aluminum profiles to block heat conduction.

In the conventional insulated windows, the area occupied by the glass windows is limited when installing the windows, so there is a limit in improving the thermal insulation performance.

Domestic Registered Patent No. 10-1044628, 'Insulated windows with improved insulation, airtightness, and watertightness'

Accordingly, it is an object of the present invention to provide an insulating window that can increase the thermal insulation performance by increasing the area of the glass window in configuring the insulating window.

The present invention according to the above object is a heat-insulating window, with an outer sash (10) fixed to a window frame (80) and an inner sash (20) that opens the window by sliding after four sides are opened by a tilt operation. The inner sash 20 includes a glass window 22 for improving thermal insulation performance and a glass window 22 so that the area of the glass window 22 in the inner sash 20 is widened while the inner sash 20 is slidably operated. It is characterized in that it consists of a roller (30) installed on the lower side of the.

In addition, the first insulating part 24 made of Azon material is installed in the lower part of the glass window 22 , and the second insulating part 26 made of polyamide material is installed in the lower part of the first insulating part 24 again, and the glass window (22) and the first insulating portion 24, the second insulating portion 26 is characterized in that it is configured to be positioned on a vertical straight line.

In addition, a lower frame 32 is installed at the lower portion of the roller 30 to support the roller 30, and the lower frame 32 prevents rainwater flowing in from the outside from flowing inside through the window frame 80. It is characterized in that the blocking wall 34 is installed.

In addition, the lower frame (32) is characterized in that the roller 30 is not separated from the window frame (80), a separation sill (36) is installed.

In addition, it is characterized in that the moving frame 50 in which the glass window 22 that moves forward and backward by the tilting operation is fixedly installed is configured in the inner window pair 20 .

In addition, the lower portion of the moving frame 50 is guided by the roller 30 and the upper portion is characterized in that a guide portion 52 for guiding the forward and backward motion of the moving frame 50 is installed.

In addition, a plurality of first sealing members 54 are installed at the upper and lower ends of the moving frame 50 to close and insulate the inner sash 20 , and the inner sash 20 is in close contact with the outer sash 10 . It is characterized in that the second sealing member 12 to be insulated is installed.

The present invention has an excellent thermal insulation performance by installing a roller in the lower side of the glass window in installing the insulating window so that the area occupied by the glass window is relatively maximized in the window.

1 is a view showing an insulated window according to an embodiment of the present invention;
2 to 3 are cross-sectional views taken along line A-A' of FIG. 1;
3 is a detailed view of FIG. 2;
5 to 6 are cross-sectional views taken along line B-B' of FIG. 1;
7 is a view showing the configuration of a heat insulating window according to another embodiment of the present invention.

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

1 is a view showing a thermally insulated window according to an embodiment of the present invention, FIGS. 2 to 3 are views showing a vertical cross-section of the insulated window, and FIG. 4 is a detailed sectional view of FIG.

The insulating window of the present invention is composed of an outer sash 10 fixed to the window frame 80, and an inner sash 20 that opens and closes the window by sliding, and the inner sash 20 is a glass window ( 22) and a roller 30 installed on the lower side of the side of the glass window 22 so that the area of the glass window 22 in the inner window pair 20 is widened while the inner window pair 20 is slidably operated.

Insulation windows and doors according to an embodiment of the present invention are PARALLEL SLIDE windows, and the outer windows 10 are fixed and the inner windows are tilted to open and close the windows by sliding the four sides of the windows in an open state. will be.

Insulation windows of the present invention may have a double-glazed window structure as shown in the drawings, but may also constitute a triple-glazed insulating window structure as shown in FIG. 7 to improve thermal insulation performance.

In the present invention, in configuring the inner window sill 20, the roller 30 is installed in the lower part of the glass window 22 in the conventional window, so that the area occupied by the glass window 22 in the window is reduced and the insulation performance is lowered. , in order to widen the area of the glass window 22 in the inner window pair 20, the roller 30 is installed on the side, not the lower part of the glass window 22, so that the area of the glass window 22 is widened, thereby improving the thermal insulation performance.

A first insulating part 24 made of an Azone material is installed in the lower part of the glass window 22, and a second insulating part 26 made of a polyamide material is installed in the lower part of the first insulating part 24 again, and the glass window ( 22), the first heat insulating part 24, and the second insulating part 26 are located on the vertical straight line, so that the heat cut is made efficiently.

In the present invention, the roller 30 is installed on the lower side of the glass window 22 , and the lower frame 32 is installed on the lower side of the roller 30 to support the roller 30 .

The lower frame 32 on which the roller 30 moves is provided with a blocking wall 34 that prevents rainwater flowing in from the outside from flowing inside through the window sill 100, and on the opposite side of the blocking wall 34 A separation barrier 36 is installed to prevent the roller 30 from being separated from the window frame 80 .

The blocking wall 34 serves to block the inflow of rainwater and also serves to support the roller 30 so as not to separate from the window frame 80 together with the separation barrier 36 installed on the opposite side.

A removable blocking wall 38 for double blocking the inflow of rainwater may be fitted in the lower frame 32 .

A protrusion 40 for fitting the removable barrier wall 38 is formed in the lower frame 32 , and the removable barrier wall 38 is fitted to the protrusion 40 , which is the previously described barrier wall 34 . ) to prevent rainwater from flowing into the window frame 80 and flowing into the window.

The inflow of rainwater can be blocked by the blocking wall 34, but when there is a lot of sudden rainwater inflow, such as in heavy rain, the removable blocking wall 38 is installed higher than the blocking wall 34 to prevent overflow of rainwater.

The inner window jacquard 20 of the present invention is operated such that four sides are opened or closed by tilting operation in a state in which the outer window jjak 10 is fixedly installed. is insulated by pushing it in the direction of the inner window sill 20 so as to be in close contact with each other as shown in FIG. 3 .

At this time, the glass window 22 that operates forward and backward by the tilting operation of the inner window sill 20 is installed in the moving frame 50, and as the moving frame 50 operates forward and backward during the tilting operation, the glass window 22 is opened or it will be closed

During the tilting operation of the inner window sill 20, the lower part of the moving frame 50 is guided by the roller 30, and the guide part 52 for guiding the forward and backward motion of the moving frame 50 is installed at the upper part, and the moving frame A plurality of first sealing members 54 may be installed at the upper and lower ends of the upper and lower ends 50 to close the inner window sill 20 and to increase airtightness and watertightness.

As the moving frame 50 is guided forward and backward by the upper guide part 52 and the lower roller 30 , all four sides can be opened during the tilting operation of the inner window sill 20 .

As shown in FIG. 2, in a state in which the four sides of the outer sash 10 are opened by the tilt operation, the window is completely opened by sliding the outer spear 10, and the outer spear 10 is in close contact with the open four sides. When the moving frame 50 is pushed, the first sealing member 54 advances together, thereby sealing is achieved.

In addition, a second sealing member 12 is installed in the fixedly installed outer sash 10 so as to be in close contact with the advancing inner sash 20 to insulate, and when the window is closed by pushing the inner sash 20, the first and second As the sealing member 12 is in close contact with each other, it is possible to increase the thermal insulation performance.

A plurality of rainwater outlets 14 are installed in the outer changjjak 10 of the present invention so that the inflowing rainwater is discharged without accumulating in the inner changjjak 20 .

Rainwater may be introduced between the inner changjjak 20 and the outer changjjak 10, and the introduced rainwater is prevented from flowing into the inner changjjak 20 any longer by the aforementioned blocking wall 34, at this time already Rainwater entering the inner window (20) is discharged through the rainwater outlet (14).

As shown in FIG. 3 , the rainwater outlet 14 is stepped stepwise in the outward direction of the outer window jjak 10 so that the introduced rainwater can be discharged to the outside along the ramp.

In addition, a rainwater inducing part 16 is installed in the outer sash 10 to prevent rainwater from flowing into the window frame 80 when the inner sash 20 is closed to minimize the inflow of rainwater.

When the outer sash 10 is closed, the inner and outer sash 10 are brought into close contact with each other by the second sealing member 12 to block the inflow of rainwater, and with it, rainwater to prevent rainwater from flowing into the window frame 80 . The induction part 16 is installed to be inclined in the outward direction to serve as a screen.

That is, the rainwater flows down along the rainwater induction part 16 to the outside and is discharged through the rainwater outlet 14 .

It is possible to prevent rainwater from accumulating for a long time by allowing rainwater to be introduced into the window frame 80 or discharged into the window frame 80 by the rainwater outlet 14 and the rainwater inducing part 16 .

5 to 6 show the horizontal cross-sectional structure of the insulated window of the present invention, and FIG. 5 shows the state in which the inner window sill 20 is opened, and FIG. It shows the closed state.

A handle 60 is provided for the tilting operation of the inner window sill 20, a locking member 62 for locking and releasing by manipulation of the handle 60 is installed, and a locking member 62 is provided on the side frame 70. ) is fixedly installed, and the locking member 62 is caught and released in the locking groove 74 formed in the locking part 72, and the opening and closing of the inner windowpane 20 and sealing is made

In the case of opening the inner window jacquard 20, the handle 60 is operated to release the locking member 62 caught in the locking part 72, so that the inner window jacquard 20 is pushed out from the outer window jjak 10. The surface is opened, and the window is opened while the inner window sill 20 is slidingly moved in the open state.

When closing the inner sash 20, push the outer sash 10 so that it is in close contact with the inner sash 20, and then reversely manipulate the handle 60 so that the locking member 62 is inserted into the locking groove 74 of the locking part 72. ) to keep the inner window sill 20 in close contact, thereby completely closing the window.

Although specific embodiments have been described in the above description of the present invention, various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be defined by the described embodiments, but should be defined by the claims and equivalents to the claims.

(10)-- Outer window sill (12)-- Second sealing member
(14)-- Rainwater outlet (16)-- Rainwater induction part
(20)-- Inner Window (22)-- Glass Window
(24)-- the first insulating part (26)-- the second insulating part
(30)-- Roller (32)-- Lower frame
(34)-- Barrier (36)-- Breakaway Bump
(38)-- Removable barrier (40)-- Stone
(50)-- Moving frame (52)-- Guide part
(54)-- the first sealing member
(60)-- Handle (62)-- Locking member
(70)-- Side Bracket (72)-- Locking part
(74)-- Hanging groove (80)-- Window frame
(100)-- window

Claims (7)

In the insulated window,
It consists of an outer sash 10 fixed to the window frame 70, and an inner sash 20 that opens the window by sliding after four sides are opened by a tilt operation,
The inner window pane 20 is provided with a glass window 22 for improving thermal insulation performance,
The first insulating part 24 serving as a support for the glass window 22 in the inner window sash 20 so that the installation area of the window 22 in the inner sash 20 is widened while the inner sash 20 is slidably operated. It is located at the lowermost end of the outer side of the window sill 20, and the roller 30 is installed on the lower side of the glass window 22,
A lower frame 32 is installed at the lower portion of the roller 30 to support the roller 30 , and the lower frame 32 has a blocking wall that prevents rainwater flowing in from the outside from flowing inside through the window frame 70 . (34) is installed, the lower frame (32) is provided with a separation barrier (36) that prevents the roller (30) from being separated from the window frame (70),
A first insulating part 24 made of an Azone material is installed in the lower part of the glass window 22 , and a second insulating part 26 made of polyamide material is installed in the lower part of the first insulating part 24 again, and the glass window 22 ) and the first insulating part 24 and the second insulating part 26 are configured to be positioned on a vertical straight line,
The lower frame 32 is fitted with a removable barrier wall 38 higher than the barrier wall 34 in order to double block the inflow of rainwater, and the lower frame 32 has a protrusion for fitting the removable barrier wall 38 . (40) is formed,
A plurality of rainwater outlets 14 that are formed stepwise in an outward direction, so that the introduced rainwater is discharged to the outside along the slope without accumulating in the inner sash 20, and the inner sash 20 Insulated windows with improved insulation performance, characterized in that a rainwater induction unit 16 is installed to prevent rainwater from flowing into the window frame 80 when closing of the window frame 80 to minimize the inflow of rainwater.
delete delete delete According to claim 1,
An insulated window with improved thermal insulation performance, characterized in that the moving frame 50 in which the glass window 22 that operates forward and backward by a tilting operation is fixedly installed is configured in the inner window sill 20.
6. The method of claim 5,
The lower part of the moving frame (50) is guided by the roller (30), and the guide part (52) for guiding the forward and backward movement of the moving frame (50) is installed on the upper part.
6. The method of claim 5,
A plurality of first sealing members 54 are installed at the upper and lower ends of the moving frame 50 to close the inner sash 20 to increase airtightness and watertightness, and the inner sash 20 is provided on the outer sash 10. Insulated windows with improved insulation performance, characterized in that the second sealing member (12) is installed at the vertical portion where the outer sash (10) and the inner sash (20) meet so that airtightness and watertightness are increased by being in close contact with each other.

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