CN115506694A

CN115506694A - Inward opening window system

Info

Publication number: CN115506694A
Application number: CN202211014412.1A
Authority: CN
Inventors: 李德初
Original assignee: Foshan Boshi Doors And Windows Co ltd
Current assignee: Foshan Boshi Doors And Windows Co ltd
Priority date: 2022-08-23
Filing date: 2022-08-23
Publication date: 2022-12-23

Abstract

The invention belongs to the technical field of doors and windows, and particularly discloses an inward opening window system which comprises an inner window stile, an outer window stile, an inner window frame and an outer window frame, wherein the inner window stile is connected with the outer window stile through a first heat insulation strip, a first sealing strip is arranged at the top of the first heat insulation strip, a first splicing plate and a convex edge are respectively arranged on the top wall of the outer window stile, a drainage groove is formed between the first splicing plate and the convex edge, a drainage hole is formed in the bottom of the first splicing plate, a first wire pressing frame is installed at the top of the first splicing plate, a second sealing strip is arranged on the side wall of the first wire pressing frame, the inner window frame is connected with the outer window frame through a second heat insulation strip, so that when the inner window frame is connected with the inner window stile through a locking structure, the outer window frame abuts against the second sealing strip, the second heat insulation strip abuts against the first sealing strip, a gap is formed between the outer window frame and the first wire pressing frame, and the gap is located above the drainage groove, and rainwater is prevented from permeating into a room from a gap between the outer window frame and the first wire pressing frame.

Description

Inward opening window system

Technical Field

The invention relates to the technical field of doors and windows, in particular to an inward opening window system.

Background

In recent years, with the change of consumption concept and the attention of people on safety, the traditional outward opening window is designed into an inward opening window. Because the window is opened inwards, the window is safer and more reliable, and is convenient to scrub. And, in order to prevent that the aluminium alloy from conducting heat to indoor outdoor temperature for family's power consumption increases, generally divide into interior window frame and outer window frame with the window frame, interior window frame and outer window frame pass through the heat insulating strip and connect, form bridge cut-off formula window frame structure, reduce the loss of energy.

However, in the weather of strong wind and strong rain, a gap is formed between the inward opening window and the window stile under the push of strong wind, so that the heat preservation and sound insulation performance is poor, and meanwhile, water is easy to seep into the room from the gap. Therefore, the sealing between the inwardly opened window and the window stile needs to be made to solve the above problems.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides an inward opening window system which solves at least one problem.

The technical scheme adopted by the invention for solving the technical problem is as follows: the utility model provides an inwardly opened window system, includes interior window club, outer window club, interior window frame and outer window frame, interior window club through first heat insulating strip with outer window club connects, first heat insulating strip top is equipped with first sealing strip, and is equipped with first splice plate and bead on the roof of outer window club respectively, first splice plate with form the drainage groove between the bead, the wash port has been seted up to the bottom of first splice plate, and first bushing frame is installed at first splice plate top, be equipped with the second sealing strip on the lateral wall of first bushing frame, interior window frame pass through the second heat insulating strip with outer window frame connects to when making interior window frame be connected through hasp structure and interior window club, the outer window frame butt is in on the second sealing strip, the second heat insulating strip butt is in on the first sealing strip, and form the gap between outer window frame and the first bushing frame, the gap is located drainage groove top.

Preferably, the hasp structure includes first hasp spare and second hasp spare, first hasp spare is arranged in the bottom of interior window frame, the second hasp spare is arranged in the top of interior window stile, during first hasp spare and second hasp spare hasp, interior window frame and interior window stile counterpoint.

Furthermore, the bottom of interior window frame is equipped with the second splice plate, the second splice plate passes through the third sealing strip butt in the concatenation position of interior window stile.

Furthermore, the first heat insulation strips and the second heat insulation strips are provided with two groups, and the heat preservation and heat insulation cotton is filled between the first heat insulation strips and between the second heat insulation strips.

Furthermore, the first sealing strip is connected to the first heat insulation strip through a bearing plate in a clamping mode.

Further, the first sealing strip with the loading board is close to the one end in drainage groove is equipped with first drainage portion and second drainage portion respectively, first drainage portion with the butt joint of second drainage portion, and second drainage portion extends into in the drainage groove.

Further, the second presses the line frame to install the bottom of interior window stile, be equipped with the third concatenation board on the diapire of outer window stile, the second press the line frame with first installing zone between the third concatenation board, the intussuseption of first installing zone is filled with the thermal-insulated cotton that keeps warm, and installs first glass panels in the first installing zone.

Furthermore, a fourth splicing plate is arranged at the top of the outer window frame, a second installation area is formed between the fourth splicing plate and the inner window frame, a second glass panel is installed in the second installation area, and the second glass panel is fixed in the second installation area through fixing glue.

Furthermore, a fastener is arranged on the side wall of the outer window stile;

the inwardly opened window system further comprises a sound insulation frame, a plurality of accommodating cavities are formed in the sound insulation frame, and heat-insulating and sound-insulating materials are filled in the accommodating cavities, so that the sound insulation frame is clamped on the clamping piece, and the top and the bottom of the sound insulation frame are respectively abutted against the first splicing plate and the third splicing plate through sealant.

Furthermore, a drainage channel is formed among the sound insulation frame, the first splicing plate, the outer window stile and the third splicing plate, and the drainage channel is communicated with the drainage groove through the drainage hole.

The invention has at least one of the following beneficial effects:

1. when the inner window frame is fixedly connected with the inner window stile through the lock catch structure, the outer window frame is abutted to the second sealing strip, so that first sealing is formed, the second heat insulation strip is abutted to the first sealing strip, second sealing is formed, and rainwater is prevented from permeating into a room from a gap between the outer window frame and the first pressing wire frame. Even if strong wind blows the second glass panel, the gap is penetrated by rainwater, the first sealing is broken through, the gap is located above the drainage groove, the rainwater further flows into the drainage groove and is discharged outdoors from the drainage hole, and meanwhile, the second sealing is formed due to the fact that the second heat insulation strip abuts against the first sealing strip, and therefore the rainwater cannot penetrate indoors.

2. The heat preservation and insulation cotton is filled in gaps between the two groups of first heat insulation strips and gaps between the two groups of second heat insulation strips, so that air in the gaps is discharged, and the heat preservation and insulation effects are achieved.

3. Be equipped with a plurality of chambeies that hold in the sound insulation frame, it has heat preservation sound-proof material to hold the intracavity packing, plays heat preservation sound-proof effect, and when sound insulation frame buckle was on buckle spare, sound insulation frame's top and bottom supported respectively through sealed glue and lean on first splice plate and third splice plate to strengthen the heat preservation sound insulation effect of first splice plate and third splice plate department.

Drawings

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

FIG. 2 is an enlarged view taken at A in FIG. 1;

fig. 3 is an enlarged view of fig. 1 at B.

In the figure, 1-an inner window stile, 11-a splicing position, 12-a second wire pressing frame, 2-an outer window stile, 21-a first splicing plate, 211-a water discharge hole, 22-a convex rib, 23-a drainage groove, 24-a third splicing plate, 25-a first installation area, 26-a first glass panel, 27-a buckling piece, 3-an inner window frame, 31-a second splicing plate, 32-a third sealing strip, 4-an outer window frame, 41-a gap, 42-a fourth splicing plate, 43-a second installation area, 44-a second glass panel, 45-a fixing glue, 5-a first heat insulation strip, 51-heat preservation heat insulation cotton, 6-a first sealing strip, 61-a bearing plate, 611-a second drainage part, 62-a first drainage part, 7-a first wire pressing frame, 71-a second sealing strip, 8-a second heat insulation strip, 9-a buckling structure, 91-a first locking piece, 92-a second locking piece, 10-a sound insulation frame, 101-a containing cavity, 102-a sound insulation channel, 102-103-a heat preservation channel, and a water discharge channel.

Detailed Description

The following further describes embodiments of the present invention with reference to the drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, and is not intended to limit the present invention. In addition, the technical features involved in the respective embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

It should be noted that, if descriptions related to "first", "second", "third", "fourth", etc. exist in the embodiments of the present invention, the descriptions of "first", "second", "third", "fourth", etc. are used for descriptive purposes only, and are not to be construed as indicating or implying relative importance or implicitly indicating the number of indicated technical features. Thus, a feature defined as "first," "second," "third," or "fourth" may explicitly or implicitly include at least one of the feature.

As shown in fig. 1 to 3, the inwardly opened window system provided by the present invention includes an inner window stile 1, an outer window stile 2, an inner window frame 3 and an outer window frame 4, it should be noted that the inner window stile 1 and the inner window frame 3 are disposed on one side of the inner window system facing indoors, the outer window stile 2 and the outer window frame 4 are disposed on one side of the inner window system facing outdoors, specifically, a second wire pressing frame 12 is installed at the bottom of the inner window stile 1, a third splice plate 24 is disposed on the bottom wall of the outer window stile 2, a first installation area 25 is disposed between the second wire pressing frame 12 and the third splice plate 24, heat insulation cotton 51 is filled in the first installation area 25, the heat insulation cotton 51 can play a role of heat insulation, a first glass panel 26 is installed in the first installation area 25, and the first glass panel 26 is fixed in the first installation area 25. The top of outer window frame 4 is equipped with fourth splice plate 42, forms second installing zone 43 between fourth splice plate 42 and the interior window frame 3, installs second glass panels 44 in the second installing zone 43, and second glass panels 44 passes through fixed glue 45 to be fixed in second installing zone 43 to make interior window frame 3 and outer window frame 4 fix on second glass panels 44, and follow second glass panels 44 and remove. It should be noted that the first glass panel 26 and the second glass panel 44 are both panels formed by spacing multiple layers of glass, and a gap exists between adjacent layers of glass, so that the heat insulation performance of the panels is improved.

As shown in fig. 2, the inner window stile 1 is fixedly connected with the outer window stile 2 through the first heat insulation strip 5, the first heat insulation strip 5 is made of a heat insulation material and plays a role in connection and heat insulation, the first sealing strip 6 is arranged at the top of the first heat insulation strip 5, preferably, the first sealing strip 6 is connected to the first heat insulation strip 5 through the bearing plate 61 in a clamping manner, and when the second heat insulation strip 8 abuts against the first sealing strip 6, the first sealing strip 6 is ensured to be fixed to the first heat insulation strip 5 and cannot move.

As shown in the attached drawing 2, the top wall of the outer window stile 2 is respectively provided with a first splicing plate 21 and a rib 22, the first splicing plate 21 and the rib 22 are integrally formed with the outer window stile 2, a drainage groove 23 is formed between the first splicing plate 21 and the rib 22, and the drainage groove 23 plays a role in water storage and drainage. A drain hole 211 is formed in the bottom of the first splicing plate 21, the drain hole 211 is used for draining water in the drainage groove 23, a first wire pressing frame 7 is installed on the top of the first splicing plate 21, and a second sealing strip 71 is arranged on the side wall of the first wire pressing frame 7. Interior window frame 3 and outer window frame 4 are located interior window stile 1 and outer window stile 2 top respectively, and interior window frame 3 is connected with outer window frame 4 through second heat insulating strip 8, and second heat insulating strip 8 is unanimous with the effect of first heat insulating strip 5. When the inner window frame 3 is fixedly connected with the inner window stile 1 through the locking structure 9, the outer window frame 4 abuts against the second sealing strip 71, so that a first seal is formed, and the second heat insulation strip 8 abuts against the first sealing strip 6, so that a second seal is formed, and rainwater is prevented from permeating into a room from a gap 41 between the outer window frame 4 and the first wire pressing frame 7. Even if strong wind blows the second glass panel 44, causing rainwater to permeate from the gap 41 and break through the first seal, since the gap 41 is located above the drainage groove 23, the rainwater further flows into the drainage groove 23 and is discharged outdoors from the drainage hole 211, and meanwhile, since the second heat insulation strip 8 abuts against the first sealing strip 6 to form the second seal, the rainwater cannot permeate indoors.

Preferably, as shown in fig. 1, the locking structure 9 comprises a first locking member 91 and a second locking member 92, the first locking member 91 is installed at the bottom of the inner window frame 3, the second locking member 92 is installed at the top of the inner window stile 1, when the first locking member 91 and the second locking member 92 are locked and fixed, i.e. the inner window frame 3 is aligned with the inner window stile 1, the outer window frame 4 abuts and presses the second sealing strip 71, and the second heat insulating strip 8 abuts and presses the first sealing strip 6, so as to prevent rainwater from penetrating into the room from the gap 41 between the outer window frame 4 and the first wire pressing frame 7.

As a further improvement, as shown in fig. 2, one end of the first sealing strip 6 and one end of the bearing plate 61 close to the drainage groove 23 are respectively provided with a first drainage portion 62 and a second drainage portion 611, the first drainage portion 62 is in butt joint with the second drainage portion 611, and the second drainage portion 611 extends into the drainage groove 23. Even if rainwater permeates into the gap 41 and splashes to the first sealing strip 6, the rainwater is drained into the drainage groove 23 through drainage of the first drainage part 62 and the second drainage part 611, and then is drained outdoors through the drainage hole 211 without permeating into the room.

As one example, as shown in fig. 1, a second splice plate 31 is disposed at the bottom of the inner window frame 3, and the second splice plate 31 abuts against the splice location 11 of the inner window stile 1 through a third sealing strip 32 to form a third seal.

In some embodiments, to enhance the heat preservation and insulation effect, two sets of the first heat insulation strips 5 and the second heat insulation strips 8 are provided, and the heat preservation and insulation cotton 51 is filled between the two sets of the first heat insulation strips 5 and between the two sets of the second heat insulation strips 8, and the heat preservation and insulation cotton 51 is filled in the gap between the two sets of the first heat insulation strips 5 and between the two sets of the second heat insulation strips 8, so that the air in the gap is discharged to achieve the heat preservation and insulation effect.

In some embodiments, because the heat preservation and sound insulation effects of the first splicing plate 21 and the third splicing plate 24 are poor, as shown in fig. 1, the side wall of the outer window stile 2 is provided with the fastener 27, the inwardly opened window system further comprises the sound insulation frame 10, a plurality of accommodating cavities 101 are arranged in the sound insulation frame 10, the accommodating cavities 101 are filled with heat preservation and sound insulation materials 102, the heat preservation and sound insulation materials 102 are polyurethane, the heat preservation and sound insulation effects are achieved, when the sound insulation frame 10 is fastened on the fastener 27, the top and the bottom of the sound insulation frame 10 are respectively abutted against the first splicing plate 21 and the third splicing plate 24 through the sealant 103, and therefore the heat preservation and sound insulation effects of the first splicing plate 21 and the third splicing plate 24 are enhanced.

The first glass pane 26 and the second glass pane 44 described above also function as sound insulation.

Further, the sound insulation frame 10 is directly arranged on the side walls of the first splicing plate 21 and the third splicing plate 24 to block the drainage hole 211, so that a drainage channel 104 is formed between the sound insulation frame 10 and the first splicing plate 21, the outer window stile 2 and the third splicing plate 24, the drainage channel 104 is communicated with the drainage groove 23 through the drainage hole 211, and rainwater in the drainage groove 23 flows to the drainage channel 104 through the drainage hole 211 and is discharged outdoors. Of course, the bottom of the sound-insulating frame 10 and the sealant 103 at the third splice plate 24 will be opened with corresponding openings 105 for drainage.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention 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 in these embodiments without departing from the principles and spirit of the invention, and the scope of protection is still within the scope of the invention.

Claims

1. An inwardly opened window system which characterized in that: including interior window stile (1), outer window stile (2), interior window frame (3) and outer window frame (4), interior window stile (1) through first heat insulating strip (5) with outer window stile (2) are connected, first heat insulating strip (5) top is equipped with first sealing strip (6), and is equipped with first splice plate (21) and bead (22) on the roof of outer window stile (2) respectively, first splice plate (21) with form drainage groove (23) between bead (22), wash port (211) have been seted up to the bottom of first splice plate (21), and first splice plate (21) top installs first press line frame (7), be equipped with second sealing strip (71) on the lateral wall of first press line frame (7), interior window frame (3) through second heat insulating strip (8) with outer window frame (4) are connected to make interior window frame (3) pass through butt lock catch structure (9) and interior window frame (1) and be connected, outer window frame (4) are located the first heat insulating strip (41) on first splice plate (21) and first press line frame (7) gap, second heat insulating strip (41) and drainage groove (41) top.

2. The inwardly opened window system of claim 1, wherein: hasp structure (9) include first hasp spare (91) and second hasp spare (92), first hasp spare (91) are arranged in the bottom of interior window frame (3), second hasp spare (92) are arranged in the top of interior window stile (1), during first hasp spare (91) and second hasp spare (92) hasp, interior window frame (3) counterpoint with interior window stile (1).

3. The inwardly opened window system as set forth in claim 1 or 2, wherein: the bottom of interior window frame (3) is equipped with second splice plate (31), second splice plate (31) are in the concatenation position (11) of interior window stile (1) through third sealing strip (32) butt.

4. The inwardly opened window system of claim 3, wherein: the first heat insulation strips (5) and the second heat insulation strips (8) are provided with two groups, and the heat insulation cotton (51) is filled between the first heat insulation strips (5) and between the second heat insulation strips (8).

5. The inwardly opened window system of claim 4, wherein: the first sealing strips (6) are connected to the first heat insulation strips (5) in a clamped mode through a bearing plate (61).

6. The inwardly opened window system of claim 5, wherein: the first sealing strip (6) and one end, close to the drainage groove (23), of the bearing plate (61) are respectively provided with a first drainage part (62) and a second drainage part (611), the first drainage part (62) is in butt joint with the second drainage part (611), and the second drainage part (611) extends into the drainage groove (23).

7. The inwardly opened window system of claim 1, wherein: the utility model discloses a glass panel, including interior window stile (1), second press wire frame (12) is installed to the bottom of interior window stile (1), be equipped with third concatenation board (24) on the diapire of outer window stile (2), second press wire frame (12) with between third concatenation board (24) first installing zone (25), first installing zone (25) intussuseption is filled with heat preservation and thermal-insulated cotton (51), and installs first glass panels (26) in first installing zone (25).

8. The inwardly opened window system of claim 7, wherein: the top of the outer window frame (4) is provided with a fourth splicing plate (42), a second installation area (43) is formed between the fourth splicing plate (42) and the inner window frame (3), a second glass panel (44) is installed in the second installation area (43), and the second glass panel (44) is fixed in the second installation area (43) through fixing glue (45).

9. The inwardly opened window system of claim 8, wherein:

a fastener (27) is arranged on the side wall of the outer window stile (2);

the inwardly opened window system further comprises a sound insulation frame (10), a plurality of accommodating cavities (101) are formed in the sound insulation frame (10), heat-preservation and sound-insulation materials (102) are filled in the accommodating cavities (101), so that the sound insulation frame (10) is buckled on the buckling piece (27), and the top and the bottom of the sound insulation frame (10) are abutted to the first splicing plate (21) and the third splicing plate (24) through sealant (103) respectively.

10. The inwardly opened window system of claim 9 wherein: and a drainage channel (104) is formed among the sound insulation frame (10), the first splicing plate (21), the outer window stile (2) and the third splicing plate (24), and the drainage channel (104) is communicated with the drainage groove (23) through the drainage hole (211).