CN210888557U - Heat-insulating sealing structure of aluminum alloy door and window - Google Patents

Abstract

The technical scheme discloses a heat-insulating sealing structure of an aluminum alloy door window, wherein a sealing space is formed between a window frame and a window sash, the sealing space comprises a first window sash heat-insulating strip and a first window frame heat-insulating strip, the first window sash heat-insulating strip comprises a first fixing part and a first sealing inclined surface, the first window frame heat-insulating strip comprises a second fixing part and a second sealing inclined surface, and the first sealing inclined surface and the second sealing inclined surface are mutually abutted and sealed; the structure can seal the first heat-insulating strip of the window frame and the first heat-insulating strip of the window sash, so that the first heat-insulating strip of the window frame has sealing performance, redundant sealing components are omitted, and the first heat-insulating strip of the window frame and the first heat-insulating strip of the window sash are sealed through the inclined plane, so that the sealing area is increased, and the sealing performance is improved.

Description

Heat-insulating sealing structure of aluminum alloy door and window

Technical Field

This technical scheme belongs to aluminum alloy door and window technical field, in particular to aluminum alloy door and window's insulation construction.

Background

The living standard of people is continuously improved, the types of doors and windows and derivative products thereof are continuously increased, and the grade is gradually increased, for example, heat-insulating aluminum alloy doors and windows, wood-aluminum composite doors and windows, aluminum-wood composite doors and windows, solid wood doors and windows, sunlight energy houses, glass curtain walls, wooden curtain walls and the like. The aluminum alloy door and window refers to a door and window made of aluminum alloy extruded sections as frames, stiles and sash materials, and is called an aluminum alloy door and window.

The existing aluminum alloy door and window section bar structurally comprises a window frame, window sashes and screen window frames, wherein the window frame and the window sashes are formed by connecting an indoor frame and an outdoor frame and I-shaped heat insulation strips between the indoor frame and the outdoor frame, the screen window frame is installed on the outer side of the indoor frame of the window frame, and sealing rubber strips are arranged between the window frame and the indoor frame of the window sashes. However, the I-shaped heat insulation strip has poor heat insulation performance and poor sealing performance.

SUMMERY OF THE UTILITY MODEL

This technical scheme provides an aluminum alloy door and window's heat preservation seal structure, and this kind of structure can make aluminum alloy door and window have outstanding thermal insulation performance and sealing performance.

In order to achieve the above purpose, the following technical solutions are adopted in the technical solutions.

A heat-insulating sealing structure of an aluminum alloy door and window comprises a window frame and a window sash matched with the window frame, wherein the window frame comprises a window frame outer section and a window frame inner section; the outer window sash section bar is connected with the inner window sash section bar through a window sash heat insulation piece;

when the window frame and the window sash are closed, a sealed space is formed between the window frame and the window sash, a first window sash heat insulation strip and a first window frame heat insulation strip are arranged in the sealed space, the first window sash heat insulation strip comprises a first fixing part and a first sealing inclined plane, two ends of the first fixing part are respectively connected and fixed with an outer window sash section bar and an inner window sash section bar, and the first sealing inclined plane is fixed in the middle of the first fixing part; the first heat insulation strip of the window frame comprises a second fixing part and a second sealing inclined plane, two ends of the second fixing part are respectively connected and fixed with the outer section bar of the window frame and the inner section bar of the window frame, and the second sealing inclined plane is fixed in the middle of the second fixing part; and the first sealing inclined surface and the second sealing inclined surface are mutually abutted and sealed.

Furthermore, the first heat insulation strip for the window sash further comprises an elastic member, one end of the elastic member is fixedly bonded to the first fixing portion through a rubber adhesive, and the other end of the elastic member is fixedly bonded to the first sealing inclined surface through the rubber adhesive.

Further, the window frame heat insulation part comprises a first window frame heat insulation strip, a second window frame heat insulation strip and a heat insulation component, the outer window frame section is connected with the inner window frame section through the first window frame heat insulation strip and the second window frame heat insulation strip, a window frame heat insulation space is formed among the first window frame heat insulation strip, the second window frame heat insulation strip, the outer window frame section and the inner window frame section, and the heat insulation component is filled in the window frame heat insulation space.

Furthermore, the window sash heat insulation piece comprises a first window sash heat insulation strip, a second window sash heat insulation strip and a heat insulation component, the outer window sash section is connected with the inner window sash section through the first window sash heat insulation strip and the second window sash heat insulation strip, a window sash heat insulation space is formed among the first window sash heat insulation strip, the second window sash heat insulation strip, the outer window sash section and the inner window sash section, and the heat insulation component is filled in the window sash heat insulation space.

Further, the elastic member is a spring member.

Further, the heat-insulating member is a polyurethane foam member.

The beneficial effects of this technical scheme do: when the window frame and the window sash are closed, a sealed space is formed between the window frame and the window sash, the sealed space comprises a first window sash heat insulation strip and a first window frame heat insulation strip, the first window sash heat insulation strip comprises a first fixing part and a first sealing inclined surface, the first window frame heat insulation strip comprises a second fixing part and a second sealing inclined surface, and the first sealing inclined surface and the second sealing inclined surface are mutually abutted and sealed; the structure can seal the first heat-insulating strip of the window frame and the first heat-insulating strip of the window sash, so that the first heat-insulating strip of the window frame has sealing performance, redundant sealing components are omitted, the first heat-insulating strip of the window frame and the first heat-insulating strip of the window sash are sealed through the inclined plane, the contact area between the first heat-insulating strip of the window frame and the first heat-insulating strip of the window sash can be increased, the sealing area is increased, and the sealing performance is improved.

Drawings

FIG. 1 is a schematic view of a heat-insulating sealing structure of an aluminum alloy door/window in example 1;

FIG. 2 is a schematic view of the heat-insulating structure of the aluminum alloy doors and windows according to example 2;

fig. 3 is a schematic structural view of a first insulating strip for a window sash in embodiment 2.

Detailed Description

Example 1

Referring to fig. 1, the heat insulation and sealing structure of an aluminum alloy door and window comprises a window frame and a window sash matched with the window frame, wherein the window frame comprises a window frame outer profile 100 and a window frame inner profile 110, the window sash comprises a window sash outer profile 200 and a window sash inner profile 210, and the window frame outer profile 100 and the window frame inner profile 110 are connected through a window frame heat insulation piece; the sash outer section bar 200 is connected with the sash inner section bar 210 through a sash heat insulation piece;

when the window frame and the window sash are closed, a sealed space is formed between the window frame and the window sash, the sealed space comprises a first window sash heat insulation strip 2001 and a first window frame heat insulation strip 1101, the first window sash heat insulation strip 2001 comprises a first fixing portion 2003 and a first sealing inclined surface 2002, two ends of the first fixing portion 2003 are respectively connected and fixed with the outer window sash section bar 200 and the inner window sash section bar 210, and the first sealing inclined surface 2002 is fixed in the middle of the first fixing portion 2003; the first heat insulation strip 1101 of the window frame comprises a second fixing part and a second sealing inclined surface, two ends of the second fixing part are respectively connected and fixed with the outer section bar 100 of the window frame and the inner section bar 110 of the window frame, and the second sealing inclined surface is fixed in the middle of the second fixing part; and the first sealing bevel 2002 and the second sealing bevel are abutted and sealed with each other.

Further, the window frame heat insulation member includes a window frame first heat insulation strip 1101, a window frame second heat insulation strip 1102 and a heat insulation member 300, the window frame outer profile 100 and the window frame inner profile 110 are connected by the window frame first heat insulation strip 1101 and the window frame second heat insulation strip 1102, a window frame heat insulation space is formed among the window frame first heat insulation strip 1101, the window frame second heat insulation strip 1102, the window frame outer profile 100 and the window frame inner profile 110, and the heat insulation member 300 is filled in the window frame heat insulation space; therefore, the heat insulation performance of the aluminum alloy door and window can be improved.

Further, the sash insulation piece includes a first sash insulation strip 2001, a second sash insulation strip 2012 and an insulation member 300, the sash outer profile 200 and the sash inner profile 210 are connected through the first sash insulation strip 2001 and the second sash insulation strip 2012, a sash insulation space is formed among the first sash insulation strip 2001, the second sash insulation strip 2012, the sash outer profile 200 and the sash inner profile 210, and the insulation member 300 is filled in the sash insulation space; therefore, the heat insulation performance of the aluminum alloy door and window can be improved.

Further, the insulation member 300 is a polyurethane foam member.

Example 2

Referring to fig. 1, the heat insulation and sealing structure of an aluminum alloy door and window comprises a window frame and a window sash matched with the window frame, wherein the window frame comprises a window frame outer profile 100 and a window frame inner profile 110, the window sash comprises a window sash outer profile 200 and a window sash inner profile 210, and the window frame outer profile 100 and the window frame inner profile 110 are connected through a window frame heat insulation piece; the sash outer section bar 200 is connected with the sash inner section bar 210 through a sash heat insulation piece;

when the window frame and the window sash are closed, a sealed space is formed between the window frame and the window sash, the sealed space comprises a first window sash heat insulation strip 2001 and a first window frame heat insulation strip 1101, the first window sash heat insulation strip 2001 comprises a first fixing portion 2003 and a first sealing inclined surface 2002, two ends of the first fixing portion 2003 are respectively connected and fixed with the outer window sash section bar 200 and the inner window sash section bar 210, and the first sealing inclined surface 2002 is fixed in the middle of the first fixing portion 2003; the first heat insulation strip 1101 of the window frame comprises a second fixing part and a second sealing inclined surface, two ends of the second fixing part are respectively connected and fixed with the outer section bar 100 of the window frame and the inner section bar 110 of the window frame, and the second sealing inclined surface is fixed in the middle of the second fixing part; and the first sealing bevel 2002 and the second sealing bevel are abutted and sealed with each other.

Further, the first sash insulating bar 2001 further includes an elastic member 2004, one end of the elastic member 2004 is adhesively fixed to the first fixing portion 2003 by a rubber adhesive, and the other end of the elastic member 2004 is adhesively fixed to the first sealing slope 2002 by a rubber adhesive; when the second inclined plane and the first inclined plane are abutted and sealed, the first inclined plane can exert an acting force on the second inclined plane, and the elastic member is arranged to exert a reverse acting force on the first inclined plane, so that the first inclined plane and the second inclined plane are abutted and sealed more tightly, and the sealing performance is improved.

Further, the window frame heat insulation member includes a window frame first heat insulation strip 1101, a window frame second heat insulation strip 1102 and a heat insulation member 300, the window frame outer profile 100 and the window frame inner profile 110 are connected by the window frame first heat insulation strip 1101 and the window frame second heat insulation strip 1102, a window frame heat insulation space is formed among the window frame first heat insulation strip 1101, the window frame second heat insulation strip 1102, the window frame outer profile 100 and the window frame inner profile 110, and the heat insulation member 300 is filled in the window frame heat insulation space; therefore, the heat insulation performance of the aluminum alloy door and window can be improved.

Further, the sash insulation piece includes a first sash insulation strip 2001, a second sash insulation strip 2012 and an insulation member 300, the sash outer profile 200 and the sash inner profile 210 are connected through the first sash insulation strip 2001 and the second sash insulation strip 2012, a sash insulation space is formed among the first sash insulation strip 2001, the second sash insulation strip 2012, the sash outer profile 200 and the sash inner profile 210, and the insulation member 300 is filled in the sash insulation space; therefore, the heat insulation performance of the aluminum alloy door and window can be improved.

Further, the elastic member 2004 is a spring member.

Further, the insulation member 300 is a polyurethane foam member.

Claims (6)

1. The heat-insulation sealing structure of the aluminum alloy door and window is characterized by comprising a window frame and a window sash matched with the window frame, wherein the window frame comprises a window frame outer section and a window frame inner section; the outer window sash section bar is connected with the inner window sash section bar through a window sash heat insulation piece;

when the window frame and the window sash are closed, a sealed space is formed between the window frame and the window sash, a first window sash heat insulation strip and a first window frame heat insulation strip are arranged in the sealed space, the first window sash heat insulation strip comprises a first fixing part and a first sealing inclined plane, two ends of the first fixing part are respectively connected and fixed with an outer window sash section bar and an inner window sash section bar, and the first sealing inclined plane is fixed in the middle of the first fixing part; the first heat insulation strip of the window frame comprises a second fixing part and a second sealing inclined plane, two ends of the second fixing part are respectively connected and fixed with the outer section bar of the window frame and the inner section bar of the window frame, and the second sealing inclined plane is fixed in the middle of the second fixing part; and the first sealing inclined surface and the second sealing inclined surface are mutually abutted and sealed.

2. The heat preservation and sealing structure of aluminum alloy doors and windows according to claim 1, wherein the first heat insulation strip of the sash further comprises an elastic member, one end of the elastic member is fixed on the first fixing portion through rubber adhesive in a bonding manner, and the other end of the elastic member is fixed on the first sealing inclined surface through rubber adhesive in a bonding manner.

3. The heat-insulating and sealing structure of an aluminum alloy door and window according to claim 1, wherein the window frame heat-insulating member comprises a first window frame heat-insulating strip, a second window frame heat-insulating strip and a heat-insulating member, the outer window frame profile and the inner window frame profile are connected through the first window frame heat-insulating strip and the second window frame heat-insulating strip, a window frame heat-insulating space is formed among the first window frame heat-insulating strip, the second window frame heat-insulating strip, the outer window frame profile and the inner window frame profile, and the heat-insulating member is filled in the window frame heat-insulating space.

4. The heat-insulating sealing structure of the aluminum alloy door and window as claimed in claim 1, wherein the sash heat-insulating member comprises a first sash heat-insulating strip, a second sash heat-insulating strip and a heat-insulating member, the outer sash profile and the inner sash profile are connected through the first sash heat-insulating strip and the second sash heat-insulating strip, a sash heat-insulating space is formed among the first sash heat-insulating strip, the second sash heat-insulating strip, the outer sash profile and the inner sash profile, and the heat-insulating member is filled in the sash heat-insulating space.

5. The heat-insulating sealing structure of aluminum alloy doors and windows according to claim 2, wherein the elastic member is a spring member.

6. The heat-insulating and sealing structure of aluminum alloy doors and windows according to claim 3 or 4, wherein the heat-insulating member is a polyurethane foam member.

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