CN218563472U - External thermal insulation sealing sliding window - Google Patents

Abstract

The utility model provides an outer sealed austral window, sliding sash that keeps warm relates to austral window, sliding sash technical field, has solved the relatively poor technical problem of thermal-insulated effect that prior art exists. The external heat-insulation sealed sliding window comprises a window frame section, a lateral fixed window sash, a movable window sash and an external heat-insulation section, wherein the window frame section is in a rectangular frame shape, and the lateral fixed window sash and the movable window sash are arranged in the window frame section; the outdoor sides of the window frame section bar, the longitudinal mullion section bar and the movable sash section bar are provided with external heat insulation sections; and when the movable window sash is in a closed state, the heat insulation sealing structure seals gaps between the movable window sash and the window frame section and between the movable window sash and the side fixed window sash. The utility model provides the high thermal insulation performance and the connection reliability of austral window, sliding sash.

Description

External thermal insulation sealing sliding window

Technical Field

The utility model belongs to the technical field of austral window, sliding sash technique and specifically relates to a sealed austral window, sliding sash of outer heat preservation is related to.

Background

The sliding window is a window which can be opened or closed in a sliding mode, and when the window is in an opening state, a movable window sash and a fixed window sash are in an overlapped position.

The rebounding sliding window is a novel sliding window, and compared with the traditional sliding window, the rebounding function is added. When the locking mechanism is released from locking the movable window sash and the side fixed window sash, the hardware connecting mechanism between the movable window sash and the window outer frame (or called as a window frame) exerts an elastic force on the movable window sash, so that the movable window sash rebounds towards the direction close to a user, and the situation that the movable window sash is pulled out by force of the user and then pushed and pulled to the position overlapped with the side fixed window sash is avoided.

The applicant has found that the prior art has at least the following technical drawbacks:

the existing rebound sliding window profile is weak in heat preservation and heat insulation effects, gaps between the movable window sashes and the fixed window sashes on the side and gaps between the movable window sashes and the window outer frame are large, and accordingly the heat preservation and heat insulation effects, the sealing performance and the sound insulation performance are poor.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the existing rebound sliding window profile has poor heat preservation and insulation effects, sealing performance and sound insulation performance.

The utility model adopts the technical proposal that:

the embodiment of the utility model provides a pair of sealed austral window, sliding sash of outer heat preservation, including window frame section bar, side fixed casement, activity casement and outer thermal-insulated heat preservation section bar, wherein:

the window frame section is in a rectangular frame shape, and the lateral fixed window sash and the movable window sash are arranged in the window frame section;

the lateral fixed window sash comprises a longitudinal mullion section and lateral fixed window sash glass;

the lateral fixed sash glass is fixedly arranged between the left side part of the window frame section bar and the longitudinal mullion section bar, or the lateral fixed sash glass is fixedly arranged between the right side part of the window frame section bar and the longitudinal mullion section bar;

the movable sash comprises a movable sash section and movable sash glass, the movable sash section is in a rectangular frame shape, and the movable sash glass is fixedly arranged in the movable sash section;

the movable sash section bar is connected with the window frame section bar through a hardware connecting mechanism, and the movable window sash can be horizontally moved to an opening position overlapped with the side fixed window sash when unlocked;

the outdoor sides of the window frame section bar, the longitudinal mullion section bar and the movable sash section bar are provided with the external heat insulation section bar; and when the movable window sash is in a closed state, the heat insulation sealing structure seals gaps between the movable window sash and the window frame section bar and between the movable window sash and the side fixed window sash.

Optionally or preferably, the heat insulation and sealing structure is a detachable structure;

the outer heat-preservation sealed sliding window further comprises an upper fixed window sash, the upper fixed window sash comprises a transverse mullion section bar and upper fixed window sash glass, and the upper fixed window sash glass is fixed between the transverse mullion section bar and the window frame section bar; and the outdoor side of the transverse mullion profile is also provided with an external heat insulation profile.

Optionally or preferably, the heat insulation sealing structure is a heat insulation rubber strip.

Optionally or preferably, the heat insulating and sealing structure comprises a first outer sealing structure and a second outer sealing structure, wherein:

the first outer sealing structure is arranged between the outer heat insulation section bar of the movable sash and the outer heat insulation section bar of the window frame section bar;

the second outer sealing structure is arranged between the outer heat insulation section bar of the movable window sash and the outer heat insulation section bar of the longitudinal mullion section bar.

Optionally or preferably, the first external sealing structure is fixed on an external heat insulation profile of the longitudinal mullion profile, and when the movable sash is closed, the first external sealing structure abuts against the external heat insulation profile on the outdoor side of the movable sash profile;

the second outer sealing structure is fixed on the outer heat insulation section bar of the window frame section bar, and when the movable sash is closed, the second outer sealing structure is abutted to the outer heat insulation section bar on the movable sash section bar.

Alternatively or preferably, the first outer sealing structure and the second outer sealing structure are symmetrical in structure.

Optionally or preferably, the heat insulating and sealing structure comprises a first middle sealing structure and a second middle sealing structure, wherein:

the first middle sealing structure is fixed on the side part of the longitudinal mullion profile;

the second middle sealing structure is fixed on the side part of the window frame profile;

when the movable window sash is closed, the first middle sealing structure and the second middle sealing structure are respectively abutted against two side parts of the movable window sash section.

Alternatively or preferably, the first and second intermediate sealing structures are symmetrical in structure.

Optionally or preferably, the heat insulating and sealing structure comprises a first inner sealing structure and a second inner sealing structure, wherein:

one side part of the movable sash section is clamped with a pressing strip, and the first inner sealing structure is fixed on the pressing strip; when the movable window sash is closed, the first inner sealing structure is abutted against the indoor side of the longitudinal mullion section;

and the other side part of the movable sash section bar forms an outward extending flange, the second inner sealing structure is fixed on the flange, and when the movable sash is closed, the second inner sealing structure is abutted against the window frame section bar.

Optionally or preferably, a handle-operated locking mechanism is disposed between the movable sash profile and the longitudinal mullion profile, and after the handle-operated locking mechanism is unlocked by an operating handle, the movable sash profile can rebound along the horizontal direction under the action of the hardware connecting mechanism and is pushed and pulled to a position overlapping with the lateral fixed sash (i.e., an open state).

Above-mentioned the utility model discloses following technical problem can be solved at least to arbitrary technical scheme:

because the window frame section bar, the longitudinal mullion section bar and the outdoor side of the movable sash section bar of the sliding window provided by the utility model are all provided with the external heat insulation section bar; the heat insulation sealing structures are arranged between the movable window sash and the window frame sectional material and between the movable window sash and the side fixed window sash, when the movable window sash is in a closed state, the heat insulation sealing structures seal the gap between the movable window sash and the window frame sectional material and the gap between the movable window sash and the side fixed window sash, therefore, the rebound sliding window sectional material has strong heat insulation effect, the gap between the movable window sash and the side fixed window sash, the gap between the movable window sash and the window outer frame is sealed, and therefore, the heat insulation effect is achieved, the sealing performance and the sound insulation performance are more ideal.

Drawings

Fig. 1 is a schematic sectional view obtained when an outer heat-insulating sealed sliding window in a closed state provided by the embodiment of the present invention is cut in a horizontal direction when the outer heat-insulating sealed sliding window moves to an open state;

fig. 2 is a schematic view of the external heat-insulating sealing sliding window in a closed state according to the embodiment of the present invention, which is cut along a vertical plane;

the labels in the figure are: 1. a window frame profile; 2. fixing the window sash laterally; 21. a longitudinal mullion profile; 22. fixing fan glass on the side; 3. a movable window sash; 31. a movable fan section bar; 32. a movable sash of glass; 4. an external heat insulation section bar; 51. a first outer sealing structure; 52. a second outer seal structure; 61. a first middle seal structure; 62. a second middle seal structure; 71. a first inner seal structure; 72. a second inner seal structure; 8. layering; 9. the window sash is fixed above the window frame; 91. a transverse mullion profile; 92. the upper part is fixed with a glass sash.

Detailed Description

The following describes the technical solution of the present invention in detail with reference to fig. 1-2 and the embodiments of the present invention.

As shown in fig. 1-2, the embodiment of the utility model provides an outer sealed austral window, sliding sash that keeps warm, including window frame section bar 1, side fixed casement 2, activity casement 3 and outer thermal-insulated heat preservation section bar 4, wherein: the external heat insulation section bar 4 may be made of a polymer material, for example: wood plastic micro-foaming or PVC.

The window frame section bar 1 is in a rectangular frame shape, and the fixed window sash 2 and the movable window sash 3 on the side are both arranged in the window frame section bar 1;

the side fixed window sash 2 comprises a longitudinal mullion section bar 21 and a side fixed sash glass 22, wherein the side fixed sash glass 22 is fixedly arranged between the left part (the right part if the structure of the application is arranged in a mirror image manner) of the window frame section bar 1 and the longitudinal mullion section bar 21;

the movable sash 3 comprises a movable sash section 31 and movable sash glass 32, the movable sash section 31 is rectangular frame-shaped, and the movable sash glass 32 is fixedly arranged in the movable sash section 31;

the movable sash section bar 31 is connected with the window frame section bar 1 through a hardware connecting mechanism, and when the movable sash 3 is unlocked, the movable sash can be horizontally moved to an opening position overlapped with the side fixed sash 2;

the outdoor sides of the window frame section bar 1, the longitudinal mullion section bar 21 and the movable sash section bar 31 are all provided with external heat insulation section bars 4; and heat insulation sealing structures are arranged between the movable window sash 3 and the window frame section bar 1 and between the movable window sash 3 and the side fixed window sash 2, and when the movable window sash 3 is in a closed state, the heat insulation sealing structures seal gaps between the movable window sash 3 and the window frame section bar 1 and between the movable window sash 3 and the side fixed window sash 2.

Because the outer heat insulation section bars 4 are arranged on the outdoor sides of the window frame section bar 1, the longitudinal mullion section bar 21 and the movable sash section bar 31 in the sliding window provided by the utility model; the heat insulation sealing structure is arranged between the movable window sash 3 and the window frame section bar 1 and between the movable window sash 3 and the side fixed window sash 2, when the movable window sash 3 is in a closed state, the heat insulation sealing structure seals gaps between the movable window sash 3 and the window frame section bar 1 and between the movable window sash 3 and the side fixed window sash 2, therefore, the self heat insulation effect of the rebound sliding window section bar is stronger, the gap between the movable window sash 3 and the side fixed window sash 2 and between the movable window sash 3 and the window outer frame are blocked, so that the heat insulation effect is better, the sealing performance and the sound insulation performance are more ideal.

As an alternative embodiment, the heat insulating and sealing structure is a detachable structure. The detachable structure has the advantages of convenient installation and maintenance.

As an optional embodiment, the external heat-insulating sealing sliding window further comprises an upper fixed sash 9, the upper fixed sash 9 comprises a transverse mullion section 91 and an upper fixed sash glass 92, and the upper fixed sash glass 92 is fixed between the transverse mullion section 91 and the window frame section 1; the outdoor side of the transverse mullion profile 91 is also provided with an external heat insulation profile 4. The window sash 9 fixed above enlarges the area of the external heat-insulation sealing sliding window and improves the lighting degree.

As an alternative embodiment, the heat-insulating sealing structure is a heat-insulating rubber strip. The heat insulation rubber strip not only has elasticity, but also has good heat insulation effect, and is suitable for heat insulation and sealing of windows.

As an alternative embodiment, the heat insulating and sealing structure includes a first outer sealing structure 51 and a second outer sealing structure 52, wherein:

the first outer sealing structure 51 is arranged between the outer heat insulation section 4 of the movable sash 3 and the outer heat insulation section 4 of the window frame section 1;

the second outer sealing structure 52 is arranged between the outer insulating profile 4 of the movable sash 3 and the outer insulating profile 4 of the longitudinal mullion profile 21.

The first outer sealing structure 51 and the second outer sealing structure 52 form a sealing and heat insulating barrier between the movable sash 3 and the mullion profile and the window frame profile 1.

As an alternative embodiment, the first external sealing structure 51 is fixed on the external heat insulation and preservation profile 4 of the longitudinal mullion profile 21, and when the movable sash 3 is closed, the first external sealing structure 51 abuts against the external heat insulation and preservation profile 4 on the outdoor side of the movable sash profile 31;

the second outer sealing structure 52 is fixed on the outer insulating profile 4 of the frame profile 1, and when the movable sash 3 is closed, the second outer sealing structure 52 abuts against the outer insulating profile 4 on the movable sash profile 31. The structure can ensure that the heat insulation sealing effect is good when the movable window sash 3 is closed, and the heat insulation sealing is not needed when the movable window sash 3 is opened, so that the first outer sealing structure 51 and the second outer sealing structure 52 do not need to play a role.

As an alternative embodiment, the structures of both the first outer sealing structure 51 and the second outer sealing structure 52 are symmetrical. The symmetrical structure is convenient for material selection, batch manufacturing and assembly, and the first outer sealing structure 51 and the second outer sealing structure 52 can also be set to be an integrated structure in actual production.

As an alternative embodiment, the heat insulation sealing structure includes a first middle sealing structure 61 and a second middle sealing structure 62, wherein: the first middle sealing structure 61 is fixed on the side of the longitudinal mullion section bar 21;

the second middle sealing structure 62 is fixed at the side of the sash profile 1;

when the movable sash 3 is closed, the first middle seal structure 61 and the second middle seal structure 62 are respectively abutted against both side portions of the movable sash section 31.

The first 61 and the second 62 middle sealing structures form another sealing and heat insulating barrier between the movable sash 3 and the mullion and frame profiles 1.

As an alternative embodiment, the structures of the first middle sealing structure 61 and the second middle sealing structure 62 are symmetrical. The symmetrical structure is convenient for material taking, batch manufacturing and assembly.

As an alternative embodiment, the heat insulating and sealing structure comprises a first inner sealing structure 71 and a second inner sealing structure 72, wherein:

one side of the movable sash section bar 31 is clamped with a pressing strip 8, and the first inner sealing structure 71 is fixed on the pressing strip 8; when the movable sash 3 is closed, the first inner sealing structure 71 abuts against the indoor side of the longitudinal mullion section 21; the other side of the movable sash profile 31 forms an outwardly extending flange to which the second inner sealing structure 72 is fixed, the second inner sealing structure 72 abutting the frame profile 1 when the movable sash 3 is closed.

The first 71 and second 72 inner sealing structures form a further sealing and insulating barrier between the movable sash 3 and the mullion and sash profiles 1.

As an alternative embodiment, a handle-operated locking mechanism is disposed between the movable sash profile 31 and the longitudinal mullion profile 21, and after the handle-operated locking mechanism is unlocked by operating the handle, the movable sash profile 31 can be rebounded in the horizontal direction and pushed and pulled to a position overlapping with the lateral fixed sash 2 (i.e. an open state) by the hardware connection mechanism after the handle-operated locking mechanism locks the relative positions of the movable sash profile 31 and the longitudinal mullion profile 21.

The manpower of applying when opening the window can be saved to five metals coupling mechanism's resilience effect, improves opening speed, brings more laborsaving operation experience.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The utility model provides an outer sealed austral window, sliding sash that keeps warm which characterized in that: including window frame section bar, side fixed casement, activity casement and outer thermal-insulated heat preservation section bar, wherein:

the window frame section is in a rectangular frame shape, and the lateral fixed window sash and the movable window sash are arranged in the window frame section;

the lateral fixed window sash comprises a longitudinal mullion section and lateral fixed window sash glass;

the lateral fixed sash glass is fixedly arranged between the left side part of the window frame section bar and the longitudinal mullion section bar, or the lateral fixed sash glass is fixedly arranged between the right side part of the window frame section bar and the longitudinal mullion section bar;

the movable sash comprises a movable sash section and movable sash glass, the movable sash section is in a rectangular frame shape, and the movable sash glass is fixedly arranged in the movable sash section;

the movable sash section bar is connected with the window frame section bar through a hardware connecting mechanism, and the movable window sash can be horizontally moved to an opening position overlapped with the side fixed window sash when unlocked;

the window frame section bar, the longitudinal mullion section bar and the outdoor side of the movable sash section bar are respectively provided with the external heat insulation section bar; and when the movable window sash is in a closed state, the heat insulation sealing structure seals gaps between the movable window sash and the window frame section bar and between the movable window sash and the side fixed window sash.

2. The outer heat-insulating sealing sliding window according to claim 1, characterized in that: the heat insulation sealing structure is a detachable structure;

the outer heat-preservation sealing sliding window further comprises an upper fixed window sash, the upper fixed window sash comprises a transverse mullion section bar and upper fixed window sash glass, and the upper fixed window sash glass is fixed between the transverse mullion section bar and the window frame section bar; the outdoor side of the transverse mullion profile is also provided with an external heat insulation profile.

3. The outer heat-insulating sealing sliding window according to claim 1, characterized in that: the heat insulation sealing structure is a heat insulation rubber strip.

4. The outer heat-insulating sealing sliding window according to claim 1, characterized in that: the heat-insulating sealing structure comprises a first outer sealing structure and a second outer sealing structure, wherein:

the first outer sealing structure is arranged between the outer heat insulation section bar of the movable sash and the outer heat insulation section bar of the window frame section bar;

the second outer sealing structure is arranged between the outer heat insulation section bar of the movable window sash and the outer heat insulation section bar of the longitudinal mullion section bar.

5. The outer insulating and sealing sliding window according to claim 4, characterized in that: the first outer sealing structure is fixed on an outer heat insulation section bar of the longitudinal mullion section bar, and when the movable sash is closed, the first outer sealing structure is abutted with the outer heat insulation section bar on the outdoor side of the movable sash section bar;

the second outer sealing structure is fixed on the outer heat insulation section bar of the window frame section bar, and when the movable sash is closed, the second outer sealing structure is abutted against the outer heat insulation section bar on the movable sash section bar.

6. The outer insulating and sealing sliding window according to claim 4, characterized in that: the first outer sealing structure and the second outer sealing structure are symmetrical in structure.

7. The outer insulating and sealing sliding window according to claim 4, characterized in that: the heat insulation and sealing structure comprises a first middle sealing structure and a second middle sealing structure, wherein:

the first middle sealing structure is fixed on the side part of the longitudinal mullion profile;

the second middle sealing structure is fixed on the side part of the window frame profile;

when the movable sash is closed, the first middle sealing structure and the second middle sealing structure are respectively abutted against two side parts of the movable sash section.

8. The outer heat-insulating sealing sliding window according to claim 7, wherein: the first middle sealing structure and the second middle sealing structure are symmetrical in structure.

9. The outer heat-insulating sealing sliding window according to claim 7, wherein: the heat-insulating sealing structure comprises a first inner sealing structure and a second inner sealing structure, wherein:

one side part of the movable sash section is clamped with a pressing strip, and the first inner sealing structure is fixed on the pressing strip; when the movable window sash is closed, the first inner sealing structure is abutted against the indoor side of the longitudinal mullion profile;

and the other side part of the movable sash section bar forms an outward extending flange, the second inner sealing structure is fixed on the flange, and when the movable sash is closed, the second inner sealing structure is abutted against the window frame section bar.

10. An outer insulating and sealing sliding window according to any one of claims 1 to 9, characterised in that: and after the handle is controlled to release the locking of the handle controlled locking mechanism on the relative positions of the movable sash section and the longitudinal mullion section, the movable sash section can rebound along the horizontal direction under the action of the hardware connecting mechanism and is pushed and pulled to the position overlapped with the lateral fixed sash.

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