CN220353709U - Narrow-edge hidden-fan outward-opening window system - Google Patents

Abstract

The utility model discloses a narrow-side hidden window outward-opening system, which belongs to the technical field of doors and windows and comprises an outer window assembly, an inner window assembly and a window sash assembly, wherein the outer window assembly is arranged on the outer side of a room, and the inner window assembly is arranged on the inner side of the room; the outer window assembly and the inner window assembly form a concave mounting part, and the window sash assembly is arranged in the concave mounting part; the window sash assembly comprises an outer window sash, an inner window sash and a glass sheet, wherein the glass sheet is clamped between the outer window sash and the inner window sash, the outer window sash is hinged with the outer window assembly, and an airtight rubber strip is arranged between the inner window sash and the inner wall of the concave installation part. The narrow-side hidden-window outward-opening system solves the problem that the existing outward-opening window has small proportion of transparent glass, so that the large visual field required by the market cannot be realized.

Description

Narrow-edge hidden-fan outward-opening window system

Technical Field

The utility model relates to the technical field of doors and windows, in particular to a narrow-side hidden-fan outward-opening window system.

Background

The outward opening window does not occupy indoor space and can be ensured to be opened to the maximum. The traditional outward opening window is generally composed of a window frame, a conversion frame, a window sash and other structures, and the window sash is required to be provided with accessories such as transmission hardware, locking hardware, a window handle and the like. The door and window comprises a sash frame, glass and a door and window frame, wherein after the door and window is integrally installed, the large protruding area of the sash frame in the indoor part can cause a large indoor visible surface section bar ratio, and the proportion of transparent glass can be correspondingly reduced, so that the large visual field and extremely simple style required by the current market cannot be realized.

Disclosure of Invention

In order to overcome the defects in the prior art, the utility model provides a narrow-edge hidden-fan outward-opening window system so as to solve the problems.

The technical scheme adopted for solving the technical problems is as follows: the narrow-edge hidden window outward opening system comprises an outer window assembly, an inner window assembly and a window sash assembly, wherein the outer window assembly is arranged on the outer side of an indoor side, and the inner window assembly is arranged on the inner side of the indoor side;

the outer window assembly and the inner window assembly form a concave mounting part, and the window sash assembly is arranged in the concave mounting part;

the window sash assembly comprises an outer window sash, an inner window sash and a glass sheet, wherein the glass sheet is clamped between the outer window sash and the inner window sash, the outer window sash is hinged with the outer window assembly, and an airtight rubber strip is arranged between the inner window sash and the inner wall of the concave installation part.

It is worth to say that, the exterior window subassembly includes exterior window frame and load-bearing auxiliary frame, exterior window frame with load-bearing auxiliary frame is connected, the load-bearing auxiliary frame is equipped with first hinge, exterior window fan pass through first hinge with the load-bearing auxiliary frame articulates.

Optionally, the outer window assembly further comprises an outer locking auxiliary frame, the inner window assembly comprises an inner window frame and an inner locking auxiliary frame, the outer window frame is connected with the outer locking auxiliary frame, the inner window frame is connected with the inner locking auxiliary frame, the inner locking auxiliary frame is provided with a flange, and the flange extends towards the direction of the window sash assembly;

the bearing auxiliary frame, the outer locking auxiliary frame, the inner locking auxiliary frame and the flange form the concave installation part, and the airtight rubber strip is arranged between the inner window sash and the flange.

Preferably, a first heat insulation strip is arranged between the outer window sash and the inner window sash; the heat insulation window comprises a glass sheet, an outer window fan and a bearing auxiliary frame, and is characterized in that a second heat insulation strip is arranged between the outer window assembly and the inner window assembly, an expansion adhesive tape is arranged between the outer window fan and the glass sheet, a shock absorption adhesive tape is arranged between the inner window fan and the glass sheet, and a watertight adhesive tape is arranged between the outer window fan and the bearing auxiliary frame.

Specifically, the first heat insulation strip is provided with an isobaric adhesive tape, and the isobaric adhesive tape extends towards the direction of the outer locking auxiliary frame and is in contact with the outer locking auxiliary frame.

It is worth to say that the outer window frame and the bearing auxiliary frame are both provided with drain holes.

Preferably, the inner window sash is provided with a glass pressing line, and the glass pressing line is abutted with the inner side of the glass sheet.

The screen window assembly comprises a screen, a screen sash frame, a screen sash auxiliary frame, a second hinge and a screen pressing line;

the screen fan auxiliary frame is connected with the inner window frame and hinged with the screen fan frame through a second hinge; the yarn pressing line is connected with the screen fan frame, and a gap for installing the screen is formed in the screen fan frame.

Optionally, the window further comprises a window sash handle, and the window sash handle is connected with the inner window sash.

Preferably, the screen window assembly further comprises a screen window catch, and the screen window catch is arranged on the screen window frame.

The utility model has the beneficial effects that: in the narrow-sided hidden-sash out-opening window system, the outer window assembly is installed in the wall of the outdoor side, and the inner window assembly is installed in the wall of the indoor side. Due to the arrangement of the concave installation part, after the window sash assembly is arranged on the concave installation part, the window sash is seen from the indoor side to the outdoor side in a window sash locking state, and the outer window sash and the inner window sash of the window sash assembly are sunk into the concave installation part, so that the occupation ratio of glass sheets can be increased, and the window sashes can not be seen from the indoor visible surface, so that the visual effect of the extremely narrow hidden window sash is achieved.

Drawings

FIG. 1 is a schematic diagram of a narrow-sided hidden-window system according to an embodiment of the present utility model;

FIG. 2 is an enlarged schematic view of the dashed circle A of FIG. 1;

FIG. 3 is a schematic view of a partial structure of a hidden-edge window system according to an embodiment of the present utility model;

FIG. 4 is a schematic view of a structure of a hidden-window system with a narrow side according to another embodiment of the present utility model;

in the figure: an outer window assembly; 11 bearing auxiliary frames; 111 a first hinge; a first dashed line 112;12 an outer window frame; 13, locking the auxiliary frame outside; 14 a recessed mounting portion; 2 an inner window assembly; 21 an inner window frame; 22 inner locking auxiliary frame; 221 ribs; 23 airtight rubber strips; 3 a window sash assembly; 31 outer window sashes; 311 expansion adhesive tape; 312 watertight glue strips; 32 inner window sashes; 321 damping rubber strips; 322 glass wire; 33 glass sheets; 4 a first insulating strip; 5 a second insulating strip; 6, an isobaric adhesive tape; 7, a screen window component; 71 gauze; 72 screen window frame; 73 a sash subframe; 74 a second hinge; a second dashed line 75;76 yarn pressing lines; 77, a screen window catch; 8 sash handles.

Detailed Description

The following describes the embodiments of the present utility model further with reference to the drawings. The description of these embodiments is provided to assist understanding of the present utility model, but is not intended to limit the present utility model. In addition, the technical features of the embodiments of the present utility model described below may be combined with each other as long as they do not collide with each other.

As shown in fig. 1-4, a narrow-edge hidden-window outward-opening system comprises an outer window assembly 1, an inner window assembly 2 and a window sash assembly 3, wherein the outer window assembly 1 is arranged on the outdoor side, and the inner window assembly 2 is arranged on the indoor side;

the outer window assembly 1 and the inner window assembly 2 form a concave mounting part 14, and the window sash assembly 3 is arranged in the concave mounting part 14;

the window sash assembly 3 comprises an outer window sash 31, an inner window sash 32 and a glass sheet 33, the glass sheet 33 is clamped between the outer window sash 31 and the inner window sash 32, the outer window sash 31 is hinged with the outer window assembly 1, an airtight adhesive tape 23 is arranged between the inner window sash 32 and the inner wall of the concave installation part 14, and the airtight adhesive tape 23 is tightly pressed and sealed with the inner window sash 32 when the window sashes are locked, so that the tightness of a door and a window is improved.

In the narrow-side hidden-window system, an outer window assembly 1 is installed in a wall of an outdoor side, and an inner window assembly 2 is installed in a wall of an indoor side. Due to the arrangement of the recessed mounting portion 14, after the window sash assembly 3 is arranged at the recessed mounting portion 14, the outer window sash 31 and the inner window sash 32 of the window sash assembly 3 are sunk into the recessed mounting portion 14 when seen from the indoor side to the outdoor side in the window sash locking state, so that the duty ratio of the glass sheet 33 can be increased, and the window sashes can not be seen from the indoor visible surface, thereby achieving the visual effect of extremely narrow hidden fans.

It should be noted that, as shown in fig. 1-3, the outer window assembly 1 includes an outer window frame 12 and a load-bearing subframe 11, the outer window frame 12 is connected to the load-bearing subframe 11, the load-bearing subframe 11 is provided with a first hinge 111, and the outer window sash 31 is hinged to the load-bearing subframe 11 through the first hinge 111. The first hinge 111 is a high load bearing friction hinge. As shown in fig. 3, the first dotted line 112 is a rotation axis of the first hinge 111, so that the outer window 31 can perform a window opening operation to the left by using the first dotted line 112 as a rotation axis. An open structure is formed by the outer frame 12 and the load-bearing subframe 11, so that the window sash assembly 3 can be conveniently rotated by the first hinge 111, and the purposes of opening and closing the window are achieved. Specifically, two bearing ribs with the height of 6.5mm are arranged at the bottom of the bearing auxiliary frame 11.

Optionally, the outer window assembly 1 further comprises an outer locking auxiliary frame 13, the inner window assembly 2 comprises an inner window frame 21 and an inner locking auxiliary frame 22, the outer window frame 12 is connected with the outer locking auxiliary frame 13, the inner window frame 21 is connected with the inner locking auxiliary frame 22, the inner locking auxiliary frame 22 is provided with a flange 221, and the flange 221 extends towards the direction of the window sash assembly 3; the bearing subframe 11, the outer locking subframe 13, the inner locking subframe 22 and the flange 221 form the recess mounting portion 14, and the airtight rubber strip 23 is disposed between the inner window sash 32 and the flange 221. In this embodiment, in the window sash closed state, the inner window sash 32 is abutted against the airtight rubber strip 23 mounted on the flange 221, so as to achieve the sealing purpose. After the bearing auxiliary frame 11, the outer locking auxiliary frame 13, the inner locking auxiliary frame 22 and the flange 221 form the concave mounting part 14, the window sash assembly 3 can be hidden, so that the occupancy rate of the glass sheets 33 can be increased, and the window sashes can not be seen by indoor visible surfaces, thereby achieving the visual effect of extremely narrow hidden fans.

Preferably, a first heat insulation strip 4 is further arranged between the outer window sash 31 and the inner window sash 32; the second heat insulation strip 5 is arranged between the outer window assembly 1 and the inner window assembly 2, the expansion adhesive tape 311 is arranged between the outer window fan 31 and the glass sheet 33, the shock absorption adhesive tape 321 is arranged between the inner window fan 32 and the glass sheet 33, and the watertight adhesive tape 312 is arranged between the outer window fan 31 and the bearing auxiliary frame 11, so that outdoor rainwater is mainly isolated from entering a room. The first insulating strips 4 and the second insulating strips 5 have the function of insulating heat, and can reduce heat transfer between the outer window fan 31 and the inner window fan 32 and reduce heat transfer between the outer window assembly 1 and the inner window assembly 2. The expansion joint strip 311 expands when it encounters water, thereby preventing rainwater from entering from the gap between the outer window 31 and the glass sheet 33. The shock absorbing rubber strips 321 have the function of shock absorption and buffering, and the risk of breakage of the glass sheets 33 is reduced. The watertight rubber strip 312 has a waterproof function, and can prevent rainwater from entering into a gap between the outer window fan 31 and the bearing auxiliary frame 11.

Specifically, the first heat insulating strip 4 is provided with an isobaric adhesive tape 6, and the isobaric adhesive tape 6 extends in the direction of the outer locking subframe 13 and abuts against the outer locking subframe 13. Therefore, convection of indoor and outdoor cold and hot air can be reduced, outdoor rainwater can be further isolated from entering the room, and the water tightness and air tightness of the whole window can be effectively improved.

The outer window frame 12 and the load-bearing subframe 11 are provided with drainage holes. The drain holes are respectively staggered and punched, so that indoor rainwater can be efficiently discharged outdoors, and meanwhile, the outdoor rainwater can be prevented from flowing backwards into the room.

Specifically, the inner sash 32 is provided with a glass pressing line 322, and the glass pressing line 322 abuts against the inner side of the glass sheet 33. This secures the glass sheet 33.

Optionally, a screen assembly 7 is further included, the screen assembly 7 including a screen 71, a screen frame 72, a screen subframe 73, a second hinge 74, and a screen cord 76; the sash sub-frame 73 is connected with the inner window frame 21, and the sash sub-frame 73 is hinged with the sash frame 72 through a second hinge 74; the yarn pressing line 76 is connected to the screen frame 72, and a gap for installing the screen 71 is formed in the screen frame 72. The second hinge 74 is a silent light weight hinge. By providing the second hinge 74, the screen 71 can be rotated indoors, and thus the screen assembly 7 can be opened and closed. As shown in fig. 3, a second dotted line 75 is a rotation axis of the second hinge 74. And a damping adhesive tape 321 is arranged between the yarn pressing line 76 and the yarn net 71, so that the purpose of damping is achieved. The yarn pressing line 76 can fix the yarn net 71.

Preferably, as shown in fig. 4, a window sash handle 8 is further included, and the window sash handle 8 is connected with the inner window sash 32. The inner window sash 32 and the outer window sash 31 are rolled into a bridge-cut-off heat-insulation window sash combined section bar through heat-insulation strip penetrating bars, the upper section bar and the lower section bar of the outer window sash 31 are assembled with a first hinge 111 to be responsible for the bearing opening and closing of the window sash assembly 3, the side surface of the vertical section bar of the inner window sash 32 is provided with a window sash handle 8 at the side of a processing hole, and the window sash handle 8 is linked with a transmission assembly and a locking assembly assembled at the inner side of the vertical direction of the inner window sash 32, so that the opening and locking of the window sash assembly 3 are realized.

Specifically, as shown in fig. 4, the screen assembly 7 further includes a screen button 77, and the screen button 77 is disposed on the screen frame 72. The user can conveniently open or close the screen assembly 7 by holding the screen catch 77.

The embodiments of the present utility model have been described in detail above with reference to the accompanying drawings, but the present utility model is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the utility model, and yet fall within the scope of the utility model.

Claims (10)

1. A narrow-sided hidden-sash out-of-window system, characterized by: the window comprises an outer window assembly, an inner window assembly and a window sash assembly, wherein the outer window assembly is arranged on the outer side of the room, and the inner window assembly is arranged on the inner side of the room;

the outer window assembly and the inner window assembly form a concave mounting part, and the window sash assembly is arranged in the concave mounting part;

the window sash assembly comprises an outer window sash, an inner window sash and a glass sheet, wherein the glass sheet is clamped between the outer window sash and the inner window sash, the outer window sash is hinged with the outer window assembly, and an airtight rubber strip is arranged between the inner window sash and the inner wall of the concave installation part.

2. A narrow-sided hidden-window system as claimed in claim 1, wherein: the outer window assembly comprises an outer window frame and a bearing auxiliary frame, the outer window frame is connected with the bearing auxiliary frame, the bearing auxiliary frame is provided with a first hinge, and the outer window sash is hinged with the bearing auxiliary frame through the first hinge.

3. A narrow-sided hidden-window system as claimed in claim 2, wherein: the outer window assembly further comprises an outer locking auxiliary frame, the inner window assembly comprises an inner window frame and an inner locking auxiliary frame, the outer window frame is connected with the outer locking auxiliary frame, the inner window frame is connected with the inner locking auxiliary frame, the inner locking auxiliary frame is provided with a flange, and the flange extends towards the window sash assembly;

the bearing auxiliary frame, the outer locking auxiliary frame, the inner locking auxiliary frame and the flange form the concave installation part, and the airtight rubber strip is arranged between the inner window sash and the flange.

4. A narrow-sided hidden-window system according to claim 3, wherein: a first heat insulation strip is arranged between the outer window sash and the inner window sash; the heat insulation window comprises a glass sheet, an outer window fan and a bearing auxiliary frame, and is characterized in that a second heat insulation strip is arranged between the outer window assembly and the inner window assembly, an expansion adhesive tape is arranged between the outer window fan and the glass sheet, a shock absorption adhesive tape is arranged between the inner window fan and the glass sheet, and a watertight adhesive tape is arranged between the outer window fan and the bearing auxiliary frame.

5. A narrow-sided hidden-window system as claimed in claim 4, wherein: the first heat insulation strip is provided with an isobaric adhesive tape, and the isobaric adhesive tape extends towards the direction of the outer locking auxiliary frame and is in butt joint with the outer locking auxiliary frame.

6. A narrow-sided hidden-window system as claimed in claim 5, wherein: the outer window frame and the bearing auxiliary frame are both provided with drain holes.

7. A narrow-sided hidden-window system as claimed in claim 1, wherein: the inner window sash is provided with a glass pressing line, and the glass pressing line is abutted with the inner side of the glass sheet.

8. A narrow-sided hidden-window system according to claim 3, wherein: the screen window assembly comprises a screen, a screen sash frame, a screen sash auxiliary frame, a second hinge and a screen pressing line;

the screen fan auxiliary frame is connected with the inner window frame and hinged with the screen fan frame through a second hinge; the yarn pressing line is connected with the screen fan frame, and a gap for installing the screen is formed in the screen fan frame.

9. A narrow-sided hidden-window system as claimed in claim 1, wherein: the window further comprises a window sash handle, and the window sash handle is connected with the inner window sash.

10. A narrow-sided hidden-fan out-opening window system according to claim 8, wherein: the screen window assembly further comprises a screen window sash buckle hand, and the screen window sash buckle hand is arranged on the screen window sash frame.