CN210118074U - Outward opening window mounting structure - Google Patents

Abstract

The utility model belongs to the technical field of doors and windows, and provides an outward opening window mounting structure, which comprises a mounting frame body, a sliding support and an outward opening sash frame body; the inner side of the mounting frame body is provided with a first sealing part which is connected with the outer opening fan frame body in a sealing way through an indoor side sealing rubber strip; the mounting frame body and the outward opening fan frame body are provided with a first sliding support clamping groove and a second sliding support clamping groove which are correspondingly arranged, and two ends of the sliding support are respectively clamped in the first sliding support clamping groove and the second sliding support clamping groove and are fixed by screws; a central sealing rubber strip is fixedly arranged on one side, facing the installation frame, of the outward opening fan frame body, and the outward opening fan frame body is connected with the installation frame body in a sealing mode through the central sealing rubber strip; the outer side of the outward opening fan frame body is provided with a second sealing part, and the second sealing part is connected with the installation frame body in a sealing mode through an outdoor side sealing rubber strip. The utility model discloses can effectively ensure that the outer fan that opens has better gas tightness and water proofness, sealing performance is good, and then has improved the thermal-insulated effect of heat preservation of the outer fan that opens greatly.

Description

Outward opening window mounting structure

Technical Field

The utility model relates to a door and window technical field especially relates to an outward-opening window mounting structure.

Background

The window is an important component of a house structure and is generally divided into a sliding window and a casement window. The existing common doors and windows, especially sliding windows, have the problems of poor air tightness and water tightness, are difficult to reach the national fourth-level or even sixth-level standard, are affected by cold and hot temperature and weathering in daily life, are easy to shrink when being worn, are easy to flow water after a long time, for example, the sliding of the whole strip is not solved if water leaks; the outward opening window is one of the casement windows, and is widely applied to the advantages of no indoor space occupation, large opening area, good ventilation and anti-theft performance and the like.

With the improvement of life quality, people have higher and higher requirements on house decoration, wherein the requirements on doors and windows are the most outstanding. The energy conservation of the building doors and windows is an important link of the energy conservation of the building, so that the improvement of the heat preservation and the air tightness of the windows is the key for improving the energy conservation of the doors and windows and even the energy conservation of the building, although the existing outward opening window structure has certain sealing advantage compared with a sliding window, still needs to be further improved, and in the process of long-term use, with the increase of the opening and closing times of the window, the sealing performance is greatly reduced, the sealing effect is poor, in addition, the sliding support mounting structure of the existing outward opening window is mainly mounted on the frame body only by means of screw fixation, if the screw for realizing the sliding support fixation is loosened or falls off, the outward opening fan is easy to be damaged or even fall under the action of external wind power and the like, the safety performance can not be effectively ensured, and the existing sliding supports are mostly arranged close to the outdoor side, the support intensity to the fan that opens outward is low, simultaneously because the heat conduction effect of sliding support can reduce the thermal insulation performance of fan that opens outward to a certain extent. Therefore, develop a swinging-out casement window mounting structure, not only have urgent research value, also have good economic benefits and industrial application potentiality, this is exactly the utility model discloses the power place and the basis that can accomplish.

SUMMERY OF THE UTILITY MODEL

In order to overcome the above-identified drawbacks of the prior art, the present inventors have conducted intensive studies and, after having paid a lot of creative efforts, have completed the present invention.

Particularly, the utility model discloses the technical problem that solve is: the utility model provides a swinging-out casement window mounting structure to ensure that the swinging-out casement has better gas tightness with water proofness, sealing performance is good, and then improves the thermal-insulated effect of heat preservation of swinging-out casement greatly.

In order to solve the technical problem, the technical scheme of the utility model is that:

an outward opening window mounting structure comprises a mounting frame body, a sliding support and an outward opening sash frame body;

the inner side of the installation frame body is provided with a first sealing part extending towards the outward opening frame body, an indoor side sealing rubber strip is arranged between the first sealing part and the outward opening frame body, and the first sealing part is connected with the outward opening frame body in a sealing mode through the indoor side sealing rubber strip;

the mounting frame body is also provided with a first sliding support clamping groove, the outward opening fan frame body is provided with a second sliding support clamping groove, the first sliding support clamping groove and the second sliding support clamping groove are correspondingly arranged and are both arranged close to the first sealing part, and two ends of the sliding support are respectively clamped in the first sliding support clamping groove and the second sliding support clamping groove and are respectively fixedly connected with the mounting frame body and the outward opening fan frame body by screws;

a central sealing rubber strip is fixedly mounted on one side, facing the mounting frame, of the outward opening sash frame body, the central sealing rubber strip is arranged close to the outer side of the outward opening sash frame body, and the outward opening sash frame body is connected with the mounting frame body in a sealing mode through the central sealing rubber strip;

the outer side of the outward opening frame body is provided with a second sealing part extending towards the installation frame body, an outdoor side sealing rubber strip is arranged between the second sealing part and the installation frame body, and the second sealing part is connected with the installation frame body in a sealing mode through the outdoor side sealing rubber strip.

As an improved technical scheme, the outward opening frame body comprises an outward opening inner frame body, an outward opening outer frame body and a first heat insulation strip, the outward opening inner frame body and the outward opening outer frame body are connected through the first heat insulation strip, a second sliding support clamping groove is formed in the outward opening inner frame body in a facing mode, one side of the installation frame body is arranged, a central sealing rubber strip is fixedly installed on the first heat insulation strip, a second sealing portion is located the outward opening outer frame body is far away from one side of the outward opening inner frame body, and the outward opening outer frame body is of an integrally formed structure.

As an improved technical scheme, a rubber strip mounting part is arranged on the first heat insulation strip close to the mounting frame body, the central sealing rubber strip is fixedly inserted on the first heat insulation strip through the rubber strip mounting part, and the tail end of the central sealing rubber strip abuts against the mounting frame body;

the terminal orientation of second sealing portion frame body has seted up first outer adhesive tape mounting groove in the outer fan of opening one side, outdoor side joint strip fixed mounting in the first outer adhesive tape mounting groove, and terminal support by the installation frame body.

As an improved technical scheme, the installation frame body comprises an outward opening installation frame, the outward opening installation frame comprises an outward opening inner frame body, an outward opening outer frame body and a second heat insulation strip, the outward opening inner frame body is connected with the outward opening outer frame body through the second heat insulation strip, the first sealing portion is located on one side, away from the outward opening outer frame body, of the outward opening inner frame body and is of an integrally formed structure with the outward opening inner frame body, the first sliding support clamping groove is formed in the outward opening inner frame body towards one side of the outward opening inner frame body, the tail end of the central sealing rubber strip is abutted against the second heat insulation strip, and the tail end of the outdoor sealing rubber strip is abutted against the outward opening outer frame body.

As an improved technical scheme, a first inner rubber strip installation groove is formed in one side, facing the outer opening fan inner frame body, of the tail end of the first sealing part, and the indoor sealing rubber strip is fixedly installed in the first inner rubber strip installation groove and abuts against the outer opening fan inner frame body;

the second heat insulation strip close to the outward opening fan frame body is provided with a first protruding portion extending towards the outward opening fan frame body, and the tail end of the central sealing rubber strip abuts against the first protruding portion.

As an improved technical scheme, the mounting frame body comprises a reverse rotating frame and an inward opening mounting frame;

the inner opening mounting frame comprises an inner opening frame body, an inner opening frame body and a fourth heat insulation strip, and the inner opening frame body is connected with the inner opening frame body through the fourth heat insulation strip;

the reverse frame comprises a reverse inner frame body, a reverse outer frame body and a third heat insulation strip, the reverse inner frame body is connected with the reverse outer frame body through the third heat insulation strip, and the reverse inner frame body is fixedly installed on the inward inner frame body through screws.

As an improved technical scheme, an adhesive tape clamping portion is arranged on the fourth heat insulation strip close to the reverse frame, an inner sealing adhesive tape of the installation frame is fixedly clamped between the adhesive tape clamping portion and the inner opening frame body, and the inner sealing adhesive tape of the installation frame is abutted against the reverse inner frame body.

As an improved technical scheme, one side of the inner opening and outer frame body, which is far away from the inner opening and inner frame body, is provided with a third sealing portion, the third sealing portion is of an integrally formed structure with the inner opening and outer frame body, a second outer rubber strip mounting groove is formed in one side of the third sealing portion, which faces the reverse outer frame body, the mounting frame outer sealing rubber strip is fixedly mounted in the second outer rubber strip mounting groove and abuts against the reverse outer frame body, and the third sealing portion is connected with the reverse outer frame body in a sealing manner through the mounting frame outer sealing rubber strip.

As an improved technical scheme, the first sealing part is located on one side of the reverse inner frame body, which is far away from the reverse outer frame body, and is of an integrally formed structure with the reverse inner frame body, a second inner rubber strip installation groove is formed in one side, which faces the outward opening fan inner frame body, of the tail end of the first sealing part, and the indoor sealing rubber strip is fixedly installed in the second inner rubber strip installation groove and abuts against the outward opening fan inner frame body;

the first sliding support clamping groove is formed in one side, facing the outward opening fan inner frame body, of the reverse rotation inner frame body, a second protruding portion extending towards the outward opening fan frame body is arranged on the third heat insulation strip close to the outward opening fan frame body, the tail end of the central sealing rubber strip abuts against the second protruding portion, and the tail end of the outdoor sealing rubber strip abuts against the reverse rotation outer frame body.

As an improved technical scheme, a notch is formed in the outer side of the outdoor side sealing rubber strip, and the notch is arranged close to the second sealing part.

After the technical scheme is adopted, the beneficial effects of the utility model are that:

this swinging-out casement window mounting structure who is equipped with, from interior to exterior is equipped with three sealing strips between the outward opening fan framework and the installation framework, can effectively ensure that the outward opening fan has better gas tightness and water proofness, sealing performance is good, and then the thermal-insulated effect of heat preservation of outward opening fan has been improved greatly, and in long-term use, can keep good sealed effect throughout, in addition, through the sliding support clamping groove embedded installation that realizes the sliding support and utilize the mounting means of fix with screw, can make the sliding support have sufficient support strength when the atress, even the set screw of sliding support is not hard up or drops, the sliding support still can ensure that the casement can not fall, and the security performance is good, and the sliding support is close to indoor side-mounting, compare traditional outdoor side-mounting, greatly reduced the heat conduction effect of sliding support to the influence of outward opening fan thermal-insulating performance, thermal insulation performance is good.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

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

fig. 2 is a schematic structural view of the external-open mounting frame of the present invention;

FIG. 3 is a schematic structural view of the outward opening frame of the present invention;

FIG. 4 is a schematic structural view of the central sealing rubber strip of the present invention;

fig. 5 is a schematic structural view of the outdoor side sealing rubber strip of the present invention;

fig. 6 is a schematic structural view of an installation state of the first embodiment of the present invention;

fig. 7 is a schematic structural diagram of a second embodiment of the present invention;

fig. 8 is a schematic structural view of the reversing frame of the present invention;

fig. 9 is a schematic structural view of the inward opening mounting frame of the present invention;

FIG. 10 is a schematic structural view of a sealing rubber strip in the mounting frame of the present invention;

fig. 11 is a schematic structural view of an installation state of the second embodiment of the present invention;

reference numerals: 1-externally opening the mounting frame; 101-external opening inner frame body; 1011. 8011-first sliding support clamping groove; 1012-first inner rubber strip mounting groove; 102-external-open outer frame body; 103-a second insulating strip; 1031-a first projection; 2-sliding support; 3-outward opening fan frame body; 301-outer open fan inner frame; 3011-a second sliding support clamping groove; 302-outer frame of outward opening fan; 3021-a first outer molding strip mounting groove; 303-first insulating strips; 3031-adhesive tape mounting part; 4-indoor side sealing rubber strip; 5-a screw; 6-central sealing rubber strip; 7-outdoor side sealing rubber strip; 701-notch; 8-reversing the frame; 801-reverse inner frame; 8012-second inner rubber strip mounting groove; 802-reverse outer frame; 803-third insulating strips; 8031-a second boss; 9-internally opening a mounting frame; 901-opening an inner frame body; 902-inner opening and outer frame body; 9021-a second outer rubber strip mounting groove; 903-a fourth insulating strip; 9031-adhesive tape clamping part; 10-a windowsill; 11-a fixed plate; 12-a blowing agent; 13-sealing rubber strips in the mounting frame; and 14, mounting an outer sealing rubber strip of the frame.

Detailed Description

The invention will be further described with reference to specific examples. The use and purpose of these exemplary embodiments are to illustrate the invention, not to limit the scope of the invention in any way, and not to limit the scope of the invention in any way.

Example one

As shown in fig. 1 and fig. 6, the present embodiment provides an outward opening window mounting structure, which includes a mounting frame body, a sliding support 2, and an outward opening sash frame body 3; the installation frame body is fixedly installed on the windowsill 10 through a fixing plate 11, the installation frame body and the windowsill 10 are sealed through a foaming agent 12, the outward opening sash frame body 3 is installed on the installation frame body, and the sliding support 2 is installed between the installation frame body and the outward opening sash frame body 3.

In this embodiment, the installation frame body is an outward opening installation frame 1, as shown in fig. 2, the outward opening installation frame 1 includes an outward opening inner frame body 101, an outward opening outer frame body 102 and second heat insulation strips 103, and the outward opening inner frame body 101 and the outward opening outer frame body 102 are connected through the second heat insulation strips 103; as shown in fig. 3, the outward opening frame 3 includes an outward opening inner frame 301, an outward opening outer frame 302, and first heat insulating strips 303, and the outward opening inner frame 301 and the outward opening outer frame 302 are connected by the first heat insulating strips 303.

In this embodiment, the side close to the indoor installation is defined as the inner side, and the side located outdoors is defined as the outer side.

The inboard of installation framework has towards the first sealing of the framework 3 extension of opening outward, is equipped with indoor side joint strip 4 between first sealing and the framework 3 of opening outward, and just first sealing passes through indoor side joint strip 4 and the framework 3 sealing connection of opening outward, realizes opening outward the first way between framework 3 and the installation framework sealed.

In this embodiment, the first sealing portion is located on one side of the outward opening inner frame body 101 away from the outward opening outer frame body 102, and is of an integrally formed structure with the outward opening inner frame body 101, a first inner rubber strip mounting groove 1012 is formed in one side of the end of the first sealing portion facing the outward opening inner frame body 301, the indoor sealing rubber strip 4 is fixedly mounted in the first inner rubber strip mounting groove 1012, and abuts against the outward opening inner frame body 301, so that after the outward opening is closed, the sealing between the outward opening frame body 3 and the outward opening mounting frame 1 is realized.

The outer fan frame body 3 is fixedly provided with a central sealing rubber strip 6 towards one side of the installation frame body, the central sealing rubber strip 6 is arranged close to the outer side of the outer fan frame body 3 as shown in fig. 4, and the outer fan frame body 3 is connected with the installation frame body in a sealing mode through the central sealing rubber strip 6, so that the second sealing between the outer fan frame body 3 and the installation frame body is realized.

In this embodiment, the central sealing rubber strip 6 is fixedly mounted on the first heat insulating strip 303, in order to mount the central sealing rubber strip 6, a rubber strip mounting portion 3031 is provided on the first heat insulating strip 303 close to the mounting frame body, and the central sealing rubber strip 6 is fixedly inserted onto the first heat insulating strip 303 through the rubber strip mounting portion 3031.

In this embodiment, the second heat insulating strip 103 close to the outward opening frame 3 has a first protrusion 1031 extending toward the outward opening frame 3, and the end of the central sealing rubber strip 6 abuts against the first protrusion 1031, so that after the outward opening frame is closed, the sealing between the outward opening frame 3 and the outward opening mounting frame 1 is realized.

The outside of the outward opening frame body 3 is provided with a second sealing part extending towards the installation frame body, an outdoor sealing rubber strip 7 is arranged between the second sealing part and the installation frame body, and the second sealing part is connected with the installation frame body in a sealing mode through the outdoor sealing rubber strip 7, so that the third sealing between the outward opening frame body 3 and the installation frame body is realized.

In this embodiment, the second sealing portion is located on one side of the outward opening outer frame body 302 away from the outward opening inner frame body 301, and is of an integrally formed structure with the outward opening outer frame body 302, a first outer rubber strip mounting groove 3021 is provided at one side of the end of the second sealing portion facing the outward opening inner frame body 301, the outdoor side sealing rubber strip 7 is fixedly mounted in the first outer rubber strip mounting groove 3021, and the end abuts against the outward opening outer frame body 102, so that after the outward opening is closed, sealing between the outward opening frame body 3 and the outward opening mounting frame 1 is realized.

As shown in fig. 5, in this embodiment, a notch 701 is formed on the outer side of the outdoor side sealing rubber strip 7, and the notch 701 is disposed near the second sealing portion; the breach 701 that has been seted up in the outdoor side joint strip 7 outside, when the outer fan of opening is closed, when not causing the influence to outdoor side joint strip 7 installation steadiness, can be inseparabler laminate to the framework of installation.

This swinging-out casement window mounting structure based on above-mentioned structure is equipped with three sealing strips by interior to exterior between swinging-out fan framework 3 and the installation framework, can effectively ensure that the swinging-out fan has better gas tightness and water proofness, and sealing performance is good, and then has improved the thermal-insulated effect of heat preservation of swinging-out fan greatly, and in long-term use, can keep good sealed effect throughout.

In order to realize the installation of the sliding support 2, a first sliding support clamping groove 1011 is further formed in the outward opening installation frame 1, a second sliding support clamping groove 3011 is formed in the outward opening sash frame body 3, the first sliding support clamping groove 1011 and the second sliding support clamping groove 3011 are correspondingly arranged and are both close to the first sealing portion, two ends of the sliding support 2 are respectively clamped in the first sliding support clamping groove 1011 and the second sliding support clamping groove 3011, and are respectively fixedly connected with the installation frame body and the outward opening sash frame body 3 through screws 5.

In this embodiment, the first sliding-support fastening groove 1011 is formed in the outer open inner frame 101 on the side facing the outer open inner frame 301, and the second sliding-support fastening groove 3011 is formed in the outer open inner frame 301 on the side facing the mounting frame.

Clamping the groove through the sliding support 2 and realizing the embedded installation of sliding support 2 and utilizing the fixed mounting means of screw 5, can make sliding support 2 have sufficient support intensity when the atress, even the set screw 5 of sliding support 2 is not hard up or drops, sliding support 2 still can ensure that the casement can not fall, the security performance is good, and sliding support 2 is close to indoor side-mounting, compare traditional outdoor side-mounting, greatly reduced sliding support 2's heat-conduction effect to the influence of the heat preservation performance of opening outward, the heat preservation performance is good.

Of course, the sliding brace 2 is installed between the installation frame body and the outward opening fan frame body 3 when the sliding brace is installed on the windowsill 10, and the sliding brace 2 is not needed when the outward opening fan is installed on the wall body.

This swinging-out casement window mounting structure, when the swinging-out casement is closed, swinging-out casement frame body 3 flushes with the inboard and outboard of installation frame body mutually for the swinging-out casement window is more pleasing to the eye.

Through the installation that this swinging-out casement window mounting structure realized the swinging-out casement window, compare traditional swinging-out casement window mounting means, the gas tightness improves with the water proofness greatly, and sealing performance is good, and it is thermal-insulated effectual to keep warm.

Example two

As shown in fig. 7 and 11, the present embodiment has the same structure as the embodiment, except that the installation frame body includes a reverse frame 8 and an inward opening installation frame 9, the inward opening installation frame 9 is fixedly installed on the window sill 10 through a fixing plate 11, and the reverse frame 8 is fixedly installed on the inward opening installation frame 9 for installing the outward opening sash frame body 3.

As shown in fig. 9, the internally-opened installation frame 9 includes an internally-opened inner frame 901, an internally-opened outer frame 902 and a fourth heat insulating strip 903, wherein the internally-opened inner frame 901 and the internally-opened outer frame 902 are connected by the fourth heat insulating strip 903; as shown in fig. 8, the inversion frame 8 includes an inversion inner frame 801, an inversion outer frame 802, and third heat insulating strips 803, the inversion inner frame 801 and the inversion outer frame 802 are connected by the third heat insulating strips 803, and the inversion inner frame 801 is fixedly connected to the inner opening inner frame 901 by screws 5, thereby realizing the fixed attachment of the inversion frame 8 to the inner opening attachment frame 9.

A rubber strip clamping part 9031 is arranged on the fourth heat insulation strip 903 close to the reverse frame 8, a mounting frame inner sealing rubber strip 13 is fixedly clamped between the rubber strip clamping part 9031 and the inner opening frame body 901, the mounting frame inner sealing rubber strip 13 abuts against the reverse inner frame body 801, and the mounting frame inner sealing rubber strip 13 is as shown in fig. 10.

One side of the inner opening outer frame body 902, which is far away from the inner opening inner frame body 901, is provided with a third sealing portion, the third sealing portion is of an integrally formed structure with the inner opening outer frame body 902, a second outer rubber strip mounting groove 9021 is formed in one side, facing the reverse outer frame body 802, of the third sealing portion, the mounting frame outer sealing rubber strip 14 is fixedly mounted in the second outer rubber strip mounting groove 9021 and abuts against the reverse outer frame body 802, and the third sealing portion is in sealing connection with the reverse outer frame body 802 through the mounting frame outer sealing rubber strip 14.

The effective sealing between the reversing frame 8 and the inward opening installation frame 9 is realized through the arranged installation frame inner sealing rubber strip 13 and the installation frame outer sealing rubber strip 14.

In this embodiment, the first sealing portion is located on a side of the reverse inner frame body 801 far from the reverse outer frame body 802, and is of an integrally formed structure with the reverse inner frame body 801, a second inner rubber strip mounting groove 8012 is disposed at a side of the end of the first sealing portion facing the outward opening inner frame body 301, and the indoor side sealing rubber strip 4 is fixedly mounted in the second inner rubber strip mounting groove 8012 and abuts against the outward opening inner frame body 301.

In this embodiment, the first slide-brace locking groove 8011 is formed in the side of the reverse rotation inner frame 801 facing the outward opening inner frame 301.

In this embodiment, the third heat insulating strip 803 close to the outward-opening frame 3 has a second protruding portion 8031 extending toward the outward-opening frame 3, and the end of the central sealing rubber strip 6 abuts against the second protruding portion 8031.

In this embodiment, the distal end of the outdoor side sealing rubber 7 abuts against the reverse outer frame 802.

It should be understood that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. Furthermore, it should be understood that various changes, modifications and/or alterations to the present invention may be made by those skilled in the art after reading the technical disclosure of the present invention, and all such equivalents may fall within the scope of the present invention as defined by the appended claims.

Claims (10)

1. The utility model provides an outward opening window mounting structure which characterized in that: comprises an installation frame body, a sliding support and an outward opening fan frame body;

the inner side of the installation frame body is provided with a first sealing part extending towards the outward opening frame body, an indoor side sealing rubber strip is arranged between the first sealing part and the outward opening frame body, and the first sealing part is connected with the outward opening frame body in a sealing mode through the indoor side sealing rubber strip;

the mounting frame body is also provided with a first sliding support clamping groove, the outward opening fan frame body is provided with a second sliding support clamping groove, the first sliding support clamping groove and the second sliding support clamping groove are correspondingly arranged and are both arranged close to the first sealing part, and two ends of the sliding support are respectively clamped in the first sliding support clamping groove and the second sliding support clamping groove and are respectively fixedly connected with the mounting frame body and the outward opening fan frame body by screws;

a central sealing rubber strip is fixedly mounted on one side, facing the mounting frame, of the outward opening sash frame body, the central sealing rubber strip is arranged close to the outer side of the outward opening sash frame body, and the outward opening sash frame body is connected with the mounting frame body in a sealing mode through the central sealing rubber strip;

the outer side of the outward opening frame body is provided with a second sealing part extending towards the installation frame body, an outdoor side sealing rubber strip is arranged between the second sealing part and the installation frame body, and the second sealing part is connected with the installation frame body in a sealing mode through the outdoor side sealing rubber strip.

2. The window-opening mounting structure of claim 1, wherein: the outer frame body of opening a fan includes outer frame body, outer frame body and the first heat insulating strip of opening a fan, outer frame body and the outer frame body of opening a fan pass through outward the first heat insulating strip is connected, the second sliding support clamp the groove in outward in the frame body of opening a fan towards one side of installation frame body is seted up, central sealing rubber strip fixed mounting in on the first heat insulating strip, the second sealing position in the outer frame body of opening a fan is kept away from outward one side of frame body in opening a fan, and be with outer frame body integrated into one piece structure of opening a fan outward.

3. The window-opening mounting structure of claim 2, wherein: the first heat insulation strip close to the mounting frame body is provided with an adhesive tape mounting part, the central sealing adhesive tape is fixedly inserted on the first heat insulation strip through the adhesive tape mounting part, and the tail end of the central sealing adhesive tape abuts against the mounting frame body;

the terminal orientation of second sealing portion frame body has seted up first outer adhesive tape mounting groove in the outer fan of opening one side, outdoor side joint strip fixed mounting in the first outer adhesive tape mounting groove, and terminal support by the installation frame body.

4. The window-opening mounting structure of claim 3, wherein: the installation frame body includes the external-open installing frame, the external-open installing frame includes external-open inner frame body, external-open outer frame body and the thermal-insulated strip of second, external-open inner frame body with external-open outer frame body passes through the thermal-insulated strip of second is connected, first seal position in external-open inner frame body is kept away from one side of external-open outer frame body, and be with external-open inner frame body integrated into one piece structure, first sliding support clamp groove in external-open inner frame body orientation one side of external-open inner frame body is seted up, the terminal of central authorities joint strip supports and leans on the thermal-insulated strip of second, the terminal of outdoor side joint strip supports and leans on external-open outer frame body.

5. The window-opening mounting structure of claim 4, wherein: a first inner rubber strip mounting groove is formed in one side, facing the outer opening fan inner frame body, of the tail end of the first sealing part, and the indoor sealing rubber strip is fixedly mounted in the first inner rubber strip mounting groove and abuts against the outer opening fan inner frame body;

the second heat insulation strip close to the outward opening fan frame body is provided with a first protruding portion extending towards the outward opening fan frame body, and the tail end of the central sealing rubber strip abuts against the first protruding portion.

6. The window-opening mounting structure of claim 3, wherein: the mounting frame body comprises a reverse rotating frame and an inward opening mounting frame;

the inner opening mounting frame comprises an inner opening frame body, an inner opening frame body and a fourth heat insulation strip, and the inner opening frame body is connected with the inner opening frame body through the fourth heat insulation strip;

the reverse frame comprises a reverse inner frame body, a reverse outer frame body and a third heat insulation strip, the reverse inner frame body is connected with the reverse outer frame body through the third heat insulation strip, and the reverse inner frame body is fixedly installed on the inward inner frame body through screws.

7. The window-opening mounting structure of claim 6, wherein: and an adhesive tape clamping part is arranged on the fourth heat insulation strip close to the reverse frame, an inner sealing adhesive tape of the installation frame is fixedly clamped between the adhesive tape clamping part and the inner opening frame body, and the inner sealing adhesive tape of the installation frame is abutted against the reverse inner frame body.

8. The window-opening mounting structure of claim 7, wherein: the interior outer frame body is kept away from one side of interior inner frame body is equipped with the third sealing, the third sealing be with interior outer frame body integrated into one piece structure, just the third sealing orientation the outer adhesive tape mounting groove of second has been seted up to one side of reversal outer frame body, installing frame outer sealing adhesive tape fixed mounting in the outer adhesive tape mounting groove of second, and support and lean on the reversal outer frame body, the third sealing passes through the installing frame outer sealing adhesive tape with reversal outer frame body sealing connection.

9. The window-opening mounting structure of claim 8, wherein: the first sealing part is positioned on one side, away from the reverse outer frame body, of the reverse inner frame body and is of an integrally formed structure with the reverse inner frame body, a second inner rubber strip mounting groove is formed in one side, facing the outer opening fan inner frame body, of the tail end of the first sealing part, and the indoor side sealing rubber strip is fixedly mounted in the second inner rubber strip mounting groove and abuts against the outer opening fan inner frame body;

the first sliding support clamping groove is formed in one side, facing the outward opening fan inner frame body, of the reverse rotation inner frame body, a second protruding portion extending towards the outward opening fan frame body is arranged on the third heat insulation strip close to the outward opening fan frame body, the tail end of the central sealing rubber strip abuts against the second protruding portion, and the tail end of the outdoor sealing rubber strip abuts against the reverse rotation outer frame body.

10. The window out-opening mounting structure of any one of claims 1-9, wherein: and a notch is formed in the outer side of the outdoor side sealing rubber strip and is close to the second sealing part.

Images