CN210659803U - High heat preservation window - Google Patents

Abstract

The utility model relates to a high heat preservation window, which comprises a window frame and a window sash, wherein heat preservation materials are filled between a first heat insulation strip and a second heat insulation strip of the window frame and between a first heat insulation strip and a third heat insulation strip of the window sash; a frame heat-insulating adhesive tape is arranged between the outer frame section and the first heat-insulating strip; a glass heat-insulating rubber strip is arranged between the outer fan section and the first heat-insulating strip as well as between the outer fan section and the glass; the foaming adhesive tape of central authorities is installed in the outside of the thermal-insulated strip of second, when the closed condition, first thermal-insulated strip, the thermal-insulated strip of second, the thermal-insulated strip of third, frame heat preservation adhesive tape, insulation material, central foaming adhesive tape and glass heat preservation adhesive tape form thermal-insulated heat preservation bridge jointly, the heat exchange between indoor side section bar and the outdoor side section bar has been cut off, the cavity of thermal-insulated bridge cut-off and the heat exchange between indoor section bar and the outdoor section bar have been separated, make the heat-conduction between indoor side and the outdoor side completely isolated, can effectually keep indoor temperature, improved the utility model discloses a thermal insulation performance.

Description

High heat preservation window

Technical Field

The utility model relates to a door and window preparation technical field especially relates to a high heat preservation window.

Background

Adopt the sealing member to realize isolated and external heat exchange in the door and window manufacturing industry usually, take the window as an example, current window adopts the sealing member to seal up closely with the gap between window frame and the casement usually, reduces the heat exchange of indoor side and outdoor side, but the material of window generally is heat conduction metal material, and indoor heat source can carry out heat-conduction through the section bar of window, therefore thermal-insulated effect is not ideal enough.

The existing window is generally made of a bridge-cut aluminum profile, the bridge-cut aluminum profile is provided with a heat insulation bridge formed by heat insulation strips, most of heat exchange can be separated, however, a cavity between the heat insulation bridges is still in a connection relationship between the indoor side aluminum profile and the outdoor side aluminum profile, therefore, certain heat exchange still exists between the indoor side aluminum profile and the outdoor side aluminum profile, the loss of indoor heat in winter is caused, the indoor refrigerating effect in summer is weakened, and therefore, the heat preservation performance of the window still needs to be further improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a high heat preservation window that with outdoor isolated and can effectively keep indoor temperature is provided.

In order to solve the technical problem, the technical scheme of the utility model is that: a high heat insulation window comprises a window frame and a window sash, wherein the window frame comprises an outer frame sectional material and an inner frame sectional material, the outer frame sectional material and the inner frame sectional material are connected through a first heat insulation strip and a second heat insulation strip, and a first fin wall for butt joint with the window sash is arranged on the outer frame sectional material close to the window sash;

the window sash comprises an outer sash section and an inner sash section, the outer sash section is connected with the inner sash section through a first heat insulation strip and a third heat insulation strip, a second fin wall used for being in butt joint with a window frame is arranged on the outer side of the inner sash section, a third fin wall used for mounting glass is arranged on the inner side of the outer sash section, a glass pressing line is mounted on the inner side of the inner sash section, the glass is mounted between the glass pressing line and the third fin wall, and a glass adhesive tape is mounted at the joint of the glass and the glass pressing line and the third fin wall;

heat insulation materials are filled between the first heat insulation strip and the second heat insulation strip of the window frame and between the first heat insulation strip and the third heat insulation strip of the window sash;

a frame heat-insulating rubber strip is arranged between the outer frame section and the wall body and connected with the outer frame section;

a glass heat-insulating rubber strip is arranged between the outer fan section and the glass and between the first heat-insulating strip connected with the outer fan section and the glass;

and a central foaming adhesive tape is arranged on the outer side of the second heat insulation strip and is combined with the third heat insulation strip in a sealing manner when the window is closed.

When the window frame is closed, the first fin wall is in butt joint with the window sash, the second fin wall is in butt joint with the window frame, the first heat insulation strip, the second heat insulation strip, the third heat insulation strip, the frame heat insulation rubber strip, the heat insulation material, the central foaming rubber strip and the glass heat insulation rubber strip jointly form a heat insulation bridge located between the outer frame section bar and the inner frame section bar and between the outer fan section bar and the inner fan section bar, and a closed constant pressure cavity is enclosed between the central foaming rubber strip and the first fin wall.

According to the preferable technical scheme, the glass pressing line comprises a supporting cavity, a clamping groove connected with the inner fan-shaped material is formed in the bottom of the supporting cavity, a fourth fin wall is arranged on one side of the supporting cavity, the glass adhesive tape is installed on the outer side of the fourth fin wall, and a heat insulation material is filled in a gap between the fourth fin wall and the inner fan-shaped material.

As a preferable technical scheme, the heat insulation material is heat insulation closed hole sponge.

According to the preferable technical scheme, a first frame and sash sealing rubber strip is arranged between the first fin wall and the outer sash section bar, and a second frame and sash sealing rubber strip is arranged between the second fin wall and the inner frame section bar.

Preferably, a stopper combined with the central foaming rubber strip is arranged on the outer side of the third heat insulation strip.

As the preferred technical scheme, a plurality of heat insulation cavities are arranged in the central foaming rubber strip and the baffle table.

Since the technical scheme is used, the beneficial effects of the utility model are that: the utility model discloses a first heat insulating strip, the heat insulating strip of second, the heat insulating strip of third, frame heat preservation adhesive tape, insulation material, central authorities' foaming adhesive tape and glass heat preservation adhesive tape form a thermal-insulated heat preservation bridge between frame section bar and inside casing section bar and between outside section bar and the inside casing section bar, the heat exchange between indoor side section bar and the outdoor side section bar has been cut off, the heat exchange between cavity and indoor section bar and the outdoor section bar of thermal-insulated bridge cut-off has been separated, make the heat-conduction between indoor side and the outdoor side completely isolated, can effectually keep indoor temperature, improved the utility model discloses a thermal insulation performance.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic view of the structure at B-B in FIG. 1;

FIG. 3 is a schematic view of the structure at A-A in FIG. 1;

in the figure: 1-a window frame; 11-outer frame profile; 111-a first wing wall; 12-inner frame profile; 121-hardware functional notches;

2-a window sash; 21-outer sash profile; 211-third wing wall; 22-inner sash profile; 221-a second wing wall; 222-hardware functional notches;

31-a first insulating strip; 32-a second insulating strip; 33-third insulating strips; 331-a baffle table; 4-pressing glass lines; 41-supporting the cavity; 42-card slot; 43-a fourth wing wall; 5-glass; 51-glass cement tape; 6-an equal-pressure cavity;

71-heat insulating materials; 72-frame heat preservation adhesive tape; 73-glass heat preservation adhesive tape; 81-a first frame sash sealing rubber strip; 82-a second frame sash sealing rubber strip; 83-Central foaming tape.

Detailed Description

As shown in fig. 1 to 3, a high insulation window includes a window frame 1 and a window sash 2.

The window frame 1 comprises an outer frame section bar 11 and an inner frame section bar 12, the outer frame section bar 11 and the inner frame section bar 12 are connected through a first heat insulation strip 31 and a second heat insulation strip 32, and a first wing wall 111 for being in butt joint with the window sash 2 is arranged on the outer frame section bar 11 close to the window sash.

The window sash 2 comprises an outer sash section bar 21 and an inner sash section bar 22, the outer sash section bar 21 is connected with the inner sash section bar 22 through a first heat insulation strip 31 and a third heat insulation strip 33, the outer side of the inner sash section bar 22 is provided with a second fin wall 221 for being in butt joint with the window frame 1, the inner side of the outer sash section bar 21 is provided with a third fin wall 211 for mounting glass, the inner side of the inner sash section bar 22 is provided with a glass pressing line 4, glass 5 is mounted between the glass pressing line 4 and the third fin wall 211, and a glass adhesive tape 51 is mounted at the joint of the glass 5 and the glass pressing line 4 and the third fin wall 211.

When the window frame is in a closed state, the first wing wall 111 and the second wing wall 221 enclose a closed equal-pressure cavity 6 between the window frame 1 and the window sash 2, in the equal-pressure cavity 6, the second heat insulating strip 32 and the third heat insulating strip 33 are arranged oppositely, and in the equal-pressure cavity 6, hardware functional notches 121 and 222 for installing hardware such as a locking mechanism, a sliding support or a hinge are correspondingly arranged on the inner frame section 12 and the inner sash section 22.

The insulating material 71 is filled between the first insulating strips 31 and the second insulating strips 32 of the window frame 1, and between the first insulating strips 31 and the third insulating strips 33 of the window sash 2.

The glass pressing line 4 comprises a supporting cavity 41, a clamping groove 42 connected with the inner sash profile 22 is formed in the bottom of the supporting cavity 41, a fourth fin wall 43 is arranged on one side of the supporting cavity 41, the glass rubber strip 51 is installed on the outer side of the fourth fin wall 43, and a heat insulation material 71 is filled in a gap between the fourth fin wall 43 and the inner sash profile 22.

Preferably, the insulating material 71 is an insulating closed-cell sponge.

A frame heat preservation adhesive tape 72 is arranged between the outer frame section bar 11 and the first heat insulation strip 31 connected with the outer frame section bar and the wall body;

and a glass heat-insulating rubber strip 73 is arranged between the outer fan section bar 21 and the first heat-insulating strip 31 connected with the outer fan section bar and the glass 5.

A first frame-sash sealing rubber strip 81 is arranged between the first fin wall 111 and the outer frame section 21, and a second frame-sash sealing rubber strip 82 is arranged between the second fin wall 221 and the inner frame section 12.

A central foam rubber strip 83 is attached to the outside of the second insulating strip 32, and the central foam rubber strip 83 is sealingly joined to the third insulating strip 33 when the window is closed.

The outside of the third insulating strip 33 is provided with a stopper 331 coupled to the central foaming bead 83.

The inside of the central foaming rubber strip 83 and the blocking table 331 are both provided with a plurality of heat insulation cavities.

When the window is closed, the first fin wall 111 is in butt joint with the window sash 2, the second fin wall 221 is in butt joint with the window frame 1, the first heat insulation strip 31, the second heat insulation strip 32, the third heat insulation strip 33, the frame heat insulation rubber strip 72, the heat insulation material 71, the central foaming rubber strip 83 and the glass heat insulation rubber strip 73 jointly form a heat insulation bridge located between the outer frame profile 11 and the inner frame profile 12 and between the outer sash profile 21 and the inner sash profile 22, and a closed constant pressure cavity 6 is enclosed between the central foaming rubber strip 83 and the first fin wall 111.

The utility model discloses in, first frame fan joint strip 81, second frame fan joint strip 82, glass adhesive tape, first heat insulating strip 31, second heat insulating strip 32, third heat insulating strip 33, frame heat preservation adhesive tape 72, insulation material 71, central foaming adhesive tape 83 and glass heat preservation adhesive tape 73 all adopt joint strip, glass adhesive tape, heat insulating strip, insulation material or the heat preservation adhesive tape commonly used among the prior art.

Wherein, insulation material 71 is not limited to the heat preservation obturator sponge, and the insulation material that can play the same effect among the prior art all is applicable to the utility model discloses.

Preferably, the central foaming rubber strip 83 is an internal heat insulation cavity formed by an ethylene propylene diene monomer material through a foaming process, the first heat insulation strip 31, the second heat insulation strip 32 and the third heat insulation strip 33 are nylon heat insulation strips, and the blocking table of the third heat insulation strip 33 and the internal heat insulation cavity thereof are arranged corresponding to the central foaming rubber strip 83 to play a role in heat preservation and heat insulation.

The basic principles, main features and advantages of the present invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a high heat preservation window, includes window frame and casement, its characterized in that:

the window frame comprises an outer frame sectional material and an inner frame sectional material, the outer frame sectional material and the inner frame sectional material are connected through a first heat insulation strip and a second heat insulation strip, and a first fin wall for butting with the window sash is arranged on one side, close to the window sash, of the outer frame sectional material;

the window sash comprises an outer sash section and an inner sash section, the outer sash section is connected with the inner sash section through a first heat insulation strip and a third heat insulation strip, a second fin wall used for being in butt joint with a window frame is arranged on the outer side of the inner sash section, a third fin wall used for mounting glass is arranged on the inner side of the outer sash section, a glass pressing line is mounted on the inner side of the inner sash section, the glass is mounted between the glass pressing line and the third fin wall, and a glass adhesive tape is mounted at the joint of the glass and the glass pressing line and the third fin wall;

heat insulation materials are filled between the first heat insulation strip and the second heat insulation strip of the window frame and between the first heat insulation strip and the third heat insulation strip of the window sash;

a frame heat-insulating rubber strip is arranged between the outer frame section and the wall body and connected with the outer frame section;

a glass heat-insulating rubber strip is arranged between the outer fan section and the glass and between the first heat-insulating strip connected with the outer fan section and the glass;

a central foaming adhesive tape is arranged on the outer side of the second heat insulation strip and is combined with the third heat insulation strip in a sealing manner when the window is closed;

when the window frame is closed, the first fin wall is in butt joint with the window sash, the second fin wall is in butt joint with the window frame, the first heat insulation strip, the second heat insulation strip, the third heat insulation strip, the frame heat insulation rubber strip, the heat insulation material, the central foaming rubber strip and the glass heat insulation rubber strip jointly form a heat insulation bridge located between the outer frame section bar and the inner frame section bar and between the outer fan section bar and the inner fan section bar, and a closed constant pressure cavity is enclosed between the central foaming rubber strip and the first fin wall.

2. A high insulation window according to claim 1, wherein: the glass pressing line comprises a supporting cavity, a clamping groove connected with the inner sash profile is formed in the bottom of the supporting cavity, a fourth fin wall is arranged on one side of the supporting cavity, the glass adhesive tape is installed on the outer side of the fourth fin wall, and heat insulation materials are filled in a gap between the fourth fin wall and the inner sash profile.

3. A high insulation window according to claim 1 or 2, wherein: the heat insulation material is heat insulation closed hole sponge.

4. A high insulation window according to claim 1, wherein: and a first frame sash sealing rubber strip is arranged between the first fin wall and the outer sash section bar, and a second frame sash sealing rubber strip is arranged between the second fin wall and the inner frame section bar.

5. A high insulation window according to claim 1, wherein: and a blocking table combined with the central foaming adhesive tape is arranged on the outer side of the third heat insulation strip.

6. A high insulation window according to claim 5, wherein: the central foaming rubber strip and the inside of the baffle table are both provided with a plurality of heat insulation cavities.

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