CN211473823U - Opening and closing structure of inward opening and inward falling system window - Google Patents

Abstract

The utility model provides an opening and closing structure of an inward opening and inward reversing system window, which comprises a window frame, a window sash and a window stile, wherein the window frame, the window stile and the window sash are all composed of heat insulation aluminum profiles and heat insulation broken bridge groups clamped in the heat insulation aluminum profiles; the heat insulation aluminum profile is internally provided with heat insulation cavity hollow tempered glass which is clamped on the heat insulation aluminum profile through a glass outer sealing rubber strip, a glass inner sealing rubber strip and a glass pressing strip; and a handle and a hinge assembly are further arranged on the window sash matched with the stile, and a first sealing rubber strip, a second sealing rubber strip and a third sealing rubber strip are respectively arranged at the matching part of the window sash and the stile. The utility model discloses a heat-insulating aluminium alloy is pasted to a plurality of joint strip to separate the cavity that forms between casement and the window frame completely, thereby also can block the rainwater when outdoor adhesive tape appears warping or wearing and tearing, avoid the inside of rainwater infiltration section bar to cause the corruption to the section bar, and prevented the damage that causes the wall body simultaneously.

Description

Opening and closing structure of inward opening and inward falling system window

Technical Field

The utility model relates to an interior window of falling in opening, specific theory has related to the structure that opens and shuts of interior system window of falling in opening.

Background

The inward opening and inward falling window can drive the linkage hardware mechanism inside the window by rotating the handle of the window, so that the window is in three different positions of locking, flat opening and inward falling. At present, a frame of an inward opening and inward tilting window is generally made of a bridge-cut aluminum alloy section, two pieces of glass are fixed on the bridge-cut aluminum alloy section, and a hollow area is formed between the two pieces of glass, so that the heat preservation and sound insulation effects are achieved.

The traditional inward opening and inward tilting window is generally sealed by installing the duckbill rubber strips on a window sash and a window frame, but because the duckbill rubber strips are generally installed on indoor and outdoor frame profiles of the window sash or outdoor and indoor frame profiles of the window frame, the sealing of the window frame and the window sash is realized. Although the adhesive tape has a certain elastic coefficient to prevent the adhesive tape from being deformed and worn, the adhesive tape still deforms and wears to a certain extent after being used for a long time, so that the sealing performance between the window frame and the window sash is influenced. In addition, as no sealing measure is provided at the heat insulation bridge-cut-off position of the window sash and the window frame, when the window sash is in a closed state, a cavity is formed between the window sash and the window frame bridge, once the sealing of the adhesive tape is in a problem, if rain and snow weather occurs, rainwater can seep into the cavity to corrode the internal section bar; in a serious situation, rainwater can infiltrate into the room to damage the wall.

In order to solve the above problems, people are always seeking an ideal technical solution.

Disclosure of Invention

The utility model aims at the not enough of prior art to a structure that opens and shuts of interior system window that falls of interior division is provided.

In order to realize the purpose, the utility model discloses the technical scheme who adopts is: the opening and closing structure of the inward opening and inward falling system window comprises a window frame, a window sash and a window stile, wherein the window frame is divided into two parts through the window stile, one part is provided with hollow toughened glass, and the other part is provided with the window sash;

the window frame is formed by splicing a first heat-insulating aluminum section, a second heat-insulating aluminum section and a first heat-insulating bridge cut-off assembly; the first heat-insulation aluminum profile and the second heat-insulation aluminum profile are connected through the first heat-insulation bridge cut-off group; the first heat insulation bridge cut-off group comprises a left first heat insulation bridge cut-off and a right first heat insulation bridge cut-off; the left first heat insulation broken bridge, the first heat insulation aluminum profile, the right first heat insulation broken bridge and the second heat insulation aluminum profile form a first heat insulation cavity in a surrounding manner;

the window stile is formed by splicing a third heat-insulation aluminum profile, a fourth heat-insulation aluminum profile and a second heat-insulation bridge cut-off group, and the second heat-insulation bridge cut-off group comprises a left second heat-insulation bridge cut-off and a right second heat-insulation bridge cut-off; the left second heat insulation broken bridge, the third heat insulation aluminum profile, the right second heat insulation broken bridge and the fourth heat insulation aluminum profile form a second heat insulation cavity in a surrounding manner;

the window sash is formed by splicing a fifth heat-insulation aluminum profile, a sixth heat-insulation aluminum profile and a third heat-insulation bridge cut-off group, wherein the third heat-insulation bridge cut-off group comprises a left third heat-insulation bridge cut-off and a right third heat-insulation bridge cut-off; the third heat insulation bridge cut-off on the left side, the fifth heat insulation aluminum profile, the third heat insulation bridge cut-off on the right side and the sixth heat insulation aluminum profile form a third heat insulation cavity in a surrounding manner;

heat insulation filling blocks are arranged in the first heat insulation cavity, the second heat insulation cavity and the third heat insulation cavity;

the hollow tempered glass is clamped on the first heat-insulation aluminum profile, the second heat-insulation aluminum profile, the third heat-insulation aluminum profile, the fourth heat-insulation aluminum profile, the fifth heat-insulation aluminum profile and the sixth heat-insulation aluminum profile through a glass outer sealing rubber strip, a glass inner sealing rubber strip and a glass pressing strip respectively;

and a handle and a hinge assembly are further arranged on the window sash matched with the stile, and a first sealing rubber strip, a second sealing rubber strip and a third sealing rubber strip are respectively arranged at the matching part of the window sash and the stile.

Based on the above, first joint strip sets up the one end at the thermal-insulated aluminium alloy of third, the third joint strip sets up the one end of the thermal-insulated aluminium alloy of fourth, under the casement closure condition, first joint strip with the third joint strip can be with the sealed laminating of the one end of the thermal-insulated aluminium alloy of fifth and the thermal-insulated aluminium alloy of sixth respectively.

Based on the above, the second sealing rubber strip is arranged on the second heat insulation broken bridge on the right side, and the second sealing rubber strip can be in sealing fit with the third heat insulation broken bridge on the left side in the closing state of the window sash.

Based on the above, the first sealing rubber strip, the second sealing rubber strip, the glass inner sealing rubber strip, the glass outer sealing rubber strip and the third sealing rubber strip are all ethylene propylene diene monomer rubber sealing rubber strips.

Based on the above, the first thermal insulation bridge-cut group, the second thermal insulation bridge-cut group and the third thermal insulation bridge-cut group are all polyamide thermal insulation strips.

The utility model discloses relative prior art has substantive characteristics and progress, specific theory, the utility model provides an open and shut structure of system window falls in interior division, after the user is closing the casement, through setting up the thermal-insulated bridge cut-off on the window frame is pasted to a plurality of sealing strips on the thermal-insulated bridge cut-off of casement to separate the cavity that forms between casement and the window frame completely, thereby also can block the rainwater through the ring packing strip on the thermal-insulated bridge cut-off of casement when outdoor adhesive tape appears warping or wearing and tearing, avoid the inside of rainwater infiltration section bar to cause the corruption to the section bar, and prevented the damage that causes the wall body simultaneously. Meanwhile, a plurality of heat insulation cavities formed by a plurality of heat insulation aluminum profiles and sealing rubber strips have better heat insulation and energy saving performance, and are easy to mold and manufacture, so that the manufacturing cost is reduced, the market competitiveness is improved, and the heat insulation aluminum profile is suitable for popularization and use.

Drawings

Fig. 1 is a schematic view of the overall structure of the opening and closing structure of the inward opening and inward falling system window provided by the present invention.

3 fig. 3 2 3 is 3 a 3 schematic 3 sectional 3 view 3 of 3 an 3 opening 3 and 3 closing 3 structure 3 a 3- 3 a 3 of 3 an 3 inward 3 opening 3 and 3 reversing 3 system 3 window 3 provided 3 by 3 the 3 present 3 invention 3. 3

Fig. 3 is a schematic sectional view of a structure B-B of the inward opening and inward falling system window provided by the present invention.

In the figure: 1. a window frame; 2. a window sash; 3. erecting a window; 4. sealing rubber strips in the glass; 5. hollow tempered glass; 6. a first thermal insulation bridge cut-off on the left side; 7. a first heat insulation bridge cut-off on the right side; 8. heat insulation filling blocks; 9. sealing an adhesive tape outside the glass; 10. a first heat-insulating aluminum profile; 11. a second heat insulation aluminum profile; 12. a first glazing bead; 13. a first sealing rubber strip; 14. a third heat insulation aluminum profile; 15. a second heat insulation bridge cut-off on the left side; 16. a fourth heat insulation aluminum profile; 17. a second heat insulation bridge cut-off on the right side; 18. a second sealing rubber strip; 19. a handle; 20. a fifth heat insulation aluminum profile; 21. a second glazing bead; 22. a third thermal insulation bridge cut-off on the left side; 23. a third sealing rubber strip; 24. a third heat insulation broken bridge on the right side; 25. and a sixth heat-insulating aluminum profile.

Detailed Description

The technical solution of the present invention will be described in further detail through the following embodiments.

Example 1

The embodiment provides an opening and closing structure of an inward opening and inward falling system window, as shown in fig. 1, 2 and 3, the opening and closing structure comprises a window frame 1, a window sash 2 and a window stile 3, wherein the window frame 1 is divided into two parts through the window stile 3, one part is provided with hollow toughened glass 5, and the other part is provided with the window sash 2.

The window frame 1 is formed by splicing a first heat-insulation aluminum section bar 10, a second heat-insulation aluminum section bar 11 and a first heat-insulation bridge cut-off assembly. The first heat-insulation aluminum profile 10 and the second heat-insulation aluminum profile 11 are connected through the first heat-insulation bridge cut-off group. The first heat insulation bridge-cut-off group comprises a left first heat insulation bridge-cut-off 6 and a right first heat insulation bridge-cut-off 7; the first heat insulation broken bridge 6 on the left side, the first heat insulation aluminum profile 10, the first heat insulation broken bridge 7 on the right side and the second heat insulation aluminum profile 11 form a first heat insulation cavity in a surrounding mode.

The window stile 3 is formed by splicing a third heat-insulation aluminum profile 14, a fourth heat-insulation aluminum profile 16 and a second heat-insulation broken bridge group. The second heat insulation broken bridge group comprises a left second heat insulation broken bridge 15 and a right second heat insulation broken bridge 17; the left second heat insulation bridge cut-off 15, the third heat insulation aluminum profile 14, the right second heat insulation bridge cut-off 17 and the fourth heat insulation aluminum profile 16 form a second heat insulation cavity in a surrounding mode.

The window sash 2 is formed by splicing a fifth heat-insulation aluminum profile 20, a sixth heat-insulation aluminum profile 25 and a third heat-insulation broken bridge group. The third heat insulation bridge-cut-off group comprises a left third heat insulation bridge-cut-off 22 and a right third heat insulation bridge-cut-off 24; the left third thermal insulation bridge cut-off 22, the fifth thermal insulation aluminum profile 20, the right third thermal insulation bridge cut-off 24 and the sixth thermal insulation aluminum profile 25 form a third thermal insulation cavity in an enclosing manner.

And heat insulation filling blocks 8 are arranged in the first heat insulation cavity, the second heat insulation cavity and the third heat insulation cavity.

The hollow tempered glass is clamped on the first heat-insulating aluminum profile 10, the second heat-insulating aluminum profile 11, the third heat-insulating aluminum profile 14, the fourth heat-insulating aluminum profile 16, the fifth heat-insulating aluminum profile 20 and the sixth heat-insulating aluminum profile 25 through a glass outer sealing rubber strip 4, a glass inner sealing rubber strip 9, a first glass pressing strip 12 and a second glass pressing strip 21 respectively.

And a handle 19 and a hinge assembly are further arranged on the window sash 2 matched with the stile 3, and a first sealing rubber strip 13, a second sealing rubber strip 18 and a third sealing rubber strip 23 are respectively arranged at the matched part of the window sash 2 and the stile 3.

Specifically, the first sealing rubber strip 13 is arranged at one end of the third insulating aluminum profile 14, and the third sealing rubber strip 23 is arranged at one end of the fourth insulating aluminum profile 16. In the closed state of the window sash, the first sealing rubber strip 13 and the third sealing rubber strip 23 can be respectively attached to one end of the fifth heat-insulating aluminum profile 20 and one end of the sixth heat-insulating aluminum profile 25 in a sealing manner.

The second sealing rubber strip 21 is arranged on the right second heat insulation bridge cut-off 17, and the second sealing rubber strip 21 can be in sealing fit with the left third heat insulation bridge cut-off 22 in a closed state of the window sash.

The first sealing rubber strip 13, the second sealing rubber strip 18, the glass inner sealing rubber strip 4, the glass outer sealing rubber strip 9 and the third sealing rubber strip 23 are all ethylene propylene diene monomer rubber sealing rubber strips.

The first heat insulation bridge-cut-off group, the second heat insulation bridge-cut-off group and the third heat insulation bridge-cut-off group are all polyamide heat insulation strips.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting the same; although the present invention has been described in detail with reference to preferred embodiments, it should be understood by those skilled in the art that: the invention can be modified or equivalent substituted for some technical features; without departing from the spirit of the present invention, it should be understood that the scope of the claims is intended to cover all such modifications and variations.

Claims (5)

1. The utility model provides an interior structure that opens and shuts of falling system window, includes window frame, casement and stile, the window frame divide into two parts through the stile, and cavity toughened glass, another part installation are installed to one of them part the casement, its characterized in that:

the window frame is formed by splicing a first heat-insulating aluminum section, a second heat-insulating aluminum section and a first heat-insulating bridge cut-off assembly; the first heat-insulation aluminum profile and the second heat-insulation aluminum profile are connected through the first heat-insulation bridge cut-off group; the first heat insulation bridge cut-off group comprises a left first heat insulation bridge cut-off and a right first heat insulation bridge cut-off; the left first heat insulation broken bridge, the first heat insulation aluminum profile, the right first heat insulation broken bridge and the second heat insulation aluminum profile form a first heat insulation cavity in a surrounding manner;

the window stile is formed by splicing a third heat-insulation aluminum profile, a fourth heat-insulation aluminum profile and a second heat-insulation bridge cut-off group, and the second heat-insulation bridge cut-off group comprises a left second heat-insulation bridge cut-off and a right second heat-insulation bridge cut-off; the left second heat insulation broken bridge, the third heat insulation aluminum profile, the right second heat insulation broken bridge and the fourth heat insulation aluminum profile form a second heat insulation cavity in a surrounding manner;

the window sash is formed by splicing a fifth heat-insulation aluminum profile, a sixth heat-insulation aluminum profile and a third heat-insulation bridge cut-off group, wherein the third heat-insulation bridge cut-off group comprises a left third heat-insulation bridge cut-off and a right third heat-insulation bridge cut-off; the third heat insulation bridge cut-off on the left side, the fifth heat insulation aluminum profile, the third heat insulation bridge cut-off on the right side and the sixth heat insulation aluminum profile form a third heat insulation cavity in a surrounding manner;

heat insulation filling blocks are arranged in the first heat insulation cavity, the second heat insulation cavity and the third heat insulation cavity;

the hollow tempered glass is clamped on the first heat-insulation aluminum profile, the second heat-insulation aluminum profile, the third heat-insulation aluminum profile, the fourth heat-insulation aluminum profile, the fifth heat-insulation aluminum profile and the sixth heat-insulation aluminum profile through a glass outer sealing rubber strip, a glass inner sealing rubber strip and a glass pressing strip respectively;

and a handle and a hinge assembly are further arranged on the window sash matched with the stile, and a first sealing rubber strip, a second sealing rubber strip and a third sealing rubber strip are respectively arranged at the matching part of the window sash and the stile.

2. The opening and closing structure of the inward opening and reversing system window according to claim 1, characterized in that: the first sealing rubber strip is arranged at one end of the third heat-insulation aluminum section, the third sealing rubber strip is arranged at one end of the fourth heat-insulation aluminum section, and the first sealing rubber strip and the third sealing rubber strip can be respectively attached to one end of the fifth heat-insulation aluminum section and one end of the sixth heat-insulation aluminum section in a sealing mode under the closing state of a window sash.

3. The opening and closing structure of the inward opening and reversing system window according to claim 2, characterized in that: the second sealing rubber strip is arranged on the second heat insulation broken bridge on the right side, and can be in sealing fit with the third heat insulation broken bridge on the left side when the window sash is closed.

4. The opening and closing structure of the inward opening and reversing system window according to claim 3, wherein: the first sealing rubber strip, the second sealing rubber strip, the glass inner sealing rubber strip, the glass outer sealing rubber strip and the third sealing rubber strip are ethylene propylene diene monomer rubber sealing rubber strips.

5. The opening and closing structure of the inward opening and reversing system window according to claim 4, wherein: the first heat insulation bridge-cut-off group, the second heat insulation bridge-cut-off group and the third heat insulation bridge-cut-off group are all polyamide heat insulation strips.

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