CN219431662U - Ventilating curtain wall structure of low-carbon energy-saving high-rise building window - Google Patents

Abstract

The utility model discloses a ventilation curtain wall structure of a low-carbon energy-saving high-rise building window, which comprises a front side stile and two rear side stiles, wherein the front side stile and the two rear side stiles are arranged in an isosceles triangle; the two rear side stiles are respectively fixedly connected with the building structure, a perforated aluminum plate is arranged between each rear side stile and each front side stile, a plurality of non-transparent windows are arranged between the two rear side stiles, the non-transparent windows are sequentially arranged along the vertical direction, at least one non-transparent window is an opening window capable of being opened outwards, and the rest non-transparent windows are fixed windows; the utility model solves the window opening problem of the high-rise building, so as to achieve the aim of natural ventilation in the high-rise building, increase the comfort level of the body feeling of indoor personnel, realize long-term window opening ventilation, reduce the service time of ventilation of a fresh air system, reduce energy consumption, save energy and protect environment, and is suitable for popularization and application in green buildings.

Description

Ventilating curtain wall structure of low-carbon energy-saving high-rise building window

Technical Field

The utility model relates to a ventilation curtain wall structure of a low-carbon energy-saving high-rise building window, and belongs to the technical field of building facade curtain wall structures.

Background

Because the wind pressure of the high-rise building is large, the wind speed entering the room after windowing is large, the body feeling of indoor personnel is extremely uncomfortable, and the arrangement of indoor furniture and the like is possibly damaged; the existing high-rise building generally adopts a fresh air system to ventilate and ventilate the room, so that energy is consumed, and the fresh air system is used for a long time, so that the body feeling of indoor personnel is uncomfortable, and the uncomfortable feeling is often relieved through short window opening.

Disclosure of Invention

The utility model provides a low-carbon energy-saving ventilation curtain wall structure for a window of a high-rise building, which mainly solves the problem of window opening of the high-rise building, so as to achieve the aim of indoor natural ventilation of the high-rise building, increase the comfort level of indoor personnel and reduce the service time of ventilation of a fresh air system.

In order to achieve the above object, the present utility model adopts the following technical scheme:

the utility model provides a ventilation curtain wall structure of low carbon energy-conserving high-rise building window, includes front side stile and two rear side stiles, front side stile and two rear side stiles are isosceles triangle and arrange; two rear side erects club respectively with building structure fixed connection, set up perforation aluminum plate between every rear side erects club and the front side erects club, set up a plurality of non-transparent windows between two rear side erects club, a plurality of non-transparent windows arrange in proper order along vertical direction, and wherein at least one non-transparent window is the opening window that can outwards open, and other non-transparent windows are fixed window.

As a further preferred aspect of the present utility model, a plurality of stiles are connected between the two rear stiles, and the non-transparent window is located between two adjacent stiles; the two ends of the transverse stile are fixedly connected with the two rear side stiles respectively, so that the stability of the whole structure is improved.

As a further preferred aspect of the present utility model, a supporting stile is connected between the building structure and the front stile; the supporting stile is of a U-shaped structure, two ends of the opening of the supporting stile of the U-shaped structure are fixedly connected with the building structure, and the outer side of the bending part of the supporting stile of the U-shaped structure is fixedly connected with the front vertical stile; thereby increasing the structural support to the front stile.

As a further preferred aspect of the present utility model, the front edge of the perforated aluminum plate is fixedly connected with the front stile through an aluminum alloy decorative profile; improving the aesthetic property of the front side edge of the perforated aluminum plate.

Further, a gap for installing a lamp strip is reserved between the aluminum alloy decorative profiles at the front side edges of the two perforated aluminum plates; when the lamp strip is required to be installed in the later period, the lamp strip can be installed at the gap.

Further, the thickness of the perforated aluminum plate is 3-4mm; the perforated aluminum plate has certain structural strength.

As a further preferred aspect of the present utility model, the front stile and the rear stile are each a metal square tube; the metal square tube can adopt a steel square tube or an aluminum square tube according to practical requirements.

As a further preferred aspect of the present utility model, the non-transparent window is a metal sandwich insulation board; the non-transparent window enables indoor personnel not to visually see the perforated aluminum plate at the outer side, and the aesthetic property of indoor vision is improved; the metal sandwich heat-insulating board has the heat-insulating effect.

The utility model has the advantages that:

the outer vertical face of the window of the high-rise building is provided with the outer convex structure, the outer convex structure is surrounded by the perforated aluminum plate, an airflow buffering cavity is formed in the outer convex structure, the opening window is positioned in the airflow buffering cavity, external air flows through the perforations in the perforated aluminum plate to enter the airflow buffering cavity, the wind pressure is reduced, and the air enters a building room from the opening window, so that the wind speed entering the room after opening the window is prevented from being larger; the window opening problem of the high-rise building is solved, the purpose of indoor natural ventilation of the high-rise building is achieved, the comfort level of the indoor personnel is increased, the ventilation can be realized after long-term window opening, the service time of ventilation of a fresh air system is shortened, the energy consumption is reduced, the energy is saved, the environment is protected, and the window opening type ventilation system is suitable for popularization and application in green buildings;

simultaneously, the opening window is opened outwards, so that the indoor use area is increased; after the opening window is opened, the perforated aluminum plate has a shielding effect on the opening window, so that the cleanness and the attractiveness of the outer facade of the building are ensured, and compared with a common high-rise building outer facade glass curtain wall, the outer facade has more abundant layers.

Drawings

FIG. 1 is a schematic view of the present utility model after installation;

FIG. 2 is a schematic perspective view of the present utility model;

FIG. 3 is a schematic view of the axial cross-sectional structure of the present utility model;

FIG. 4 is a schematic view of an exploded construction of the present utility model;

meaning of reference numerals in the drawings:

1-front side stiles, 2-rear side stiles, 3-building structures, 4-perforated aluminum plates, 5-non-transparent windows, 6-transverse stiles, 7-supporting stiles, 8-holes, 9-aluminum alloy decorative profiles and 10-gaps.

Detailed Description

The utility model is described in detail below with reference to the drawings and the specific embodiments.

As shown in fig. 1-4, the embodiment is a ventilation curtain wall structure of a low-carbon energy-saving high-rise building window, which comprises a front side stile 1 and two rear side stiles 2, wherein the front side stile 1 and the two rear side stiles 2 are arranged in an isosceles triangle; the two rear side stiles 2 are fixedly connected with the building structure 3 respectively, a perforated aluminum plate 4 is arranged between each rear side stile 2 and the front side stile 1, the rear side edge of the perforated aluminum plate 4 is fixedly connected with the rear side stile 2, the front side edge of the perforated aluminum plate 4 is fixedly connected with the front side stile 1, a plurality of non-transparent windows 5 are arranged between the two rear side stiles 2, the plurality of non-transparent windows 5 are sequentially arranged along the vertical direction, at least one non-transparent window 5 is an opening window capable of being opened outwards, and the rest non-transparent windows 5 are fixed windows;

in this embodiment, four non-transparent windows 5 are disposed between two rear stiles 2, wherein only one non-transparent window 5 is an outwardly opened window, the opened window includes a window frame and a window sash, and the top edge of the window sash is hinged with the top of the window frame through a hinge.

In the embodiment, a plurality of transverse stiles 6 are connected between two rear side stiles 2, and a non-transparent window 5 is positioned between two adjacent transverse stiles 6; the two ends of the transverse tappet 6 are respectively fixedly connected with the two rear side stiles 2, so that the stability of the whole structure is improved.

In this embodiment, a supporting stile 7 is connected between the building structure 3 and the front stile 1; the supporting stile 7 is of a U-shaped structure, two ends of the opening of the U-shaped structure supporting stile 7 are fixedly connected with the building structure 3, and the outer side of the bending part of the U-shaped structure supporting stile 7 is fixedly connected with the front vertical stile 1; thereby increasing the structural support to the front stile 1; in this embodiment, a hole 8,U shaped structure supporting tappet 7 is formed on the non-transparent window 5, which is the uppermost fixed window, for the two ends of the opening of the U shaped structure supporting tappet 7 to pass through, and the two ends of the opening of the U shaped structure supporting tappet 7 pass through the non-transparent window 5 and then are fixedly connected with the building structure 3; the U-shaped structure in this embodiment supports tappet 7 and adopts metal square tube concatenation to constitute, and the quantity of supporting tappet 7 also can set up a plurality of.

In the embodiment, the front edge of the perforated aluminum plate 4 is fixedly connected with the front stile 1 through an aluminum alloy decorative section bar 9; the aesthetic property of the front side edge of the perforated aluminum plate 4 is improved; the thickness of the perforated aluminum plate 4 is 3mm; the perforated aluminum plate 4 has a certain structural strength; in practice, perforated aluminum sheet 4 having a thickness of 3.5mm or 4mm may be used.

In the embodiment, a gap 10 for installing a lamp strip is reserved between aluminum alloy decorative profiles 9 at the front side edges of two perforated aluminum plates 4; when the lamp strip is required to be installed at a later stage, the lamp strip can be installed at the gap 10.

In the embodiment, the front side stile 1 and the rear side stile 2 are metal square tubes; the metal square tube can adopt a steel square tube or an aluminum square tube according to practical requirements.

In this embodiment, the non-transparent window 5 is a metal sandwich insulation board; the non-transparent window 5 prevents indoor personnel from intuitively seeing the perforated aluminum plate 4 at the outer side, so that the aesthetic property of indoor vision is improved; the metal sandwich heat-insulating board has the heat-insulating effect.

According to the embodiment, the outer vertical face of the window of the high-rise building is additionally provided with the convex structure, the convex structure is surrounded by the perforated aluminum plate, the air flow buffer cavity is formed in the convex structure, the opening window is positioned in the air flow buffer cavity, external air flows through the perforations in the perforated aluminum plate to enter the air flow buffer cavity, the air pressure is reduced, then the air enters a building room from the opening window, and the air speed entering the building room after opening the window is prevented from being larger; the window opening problem of the high-rise building is solved, the purpose of indoor natural ventilation of the high-rise building is achieved, the comfort level of the indoor personnel is increased, the ventilation can be realized after long-term window opening, the service time of ventilation of a fresh air system is shortened, the energy consumption is reduced, the energy is saved, the environment is protected, and the window opening type ventilation system is suitable for popularization and application in green buildings;

simultaneously, the opening window is opened outwards, so that the indoor use area is increased; after the opening window is opened, the perforated aluminum plate has a shielding effect on the opening window, so that the cleanness and the attractiveness of the outer facade of the building are ensured, and compared with a common high-rise building outer facade glass curtain wall, the outer facade has more abundant layers.

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, it should be noted that, unless explicitly stated and limited otherwise, the terms "mounted," "connected," and "configured" are to be construed broadly, and may be, for example, fixedly connected, configured, detachably connected, configured, or integrally connected, configured; can be mechanically or electrically connected; can be directly connected, can also be indirectly connected through an intermediate medium, and can also be the communication between the two elements; the specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model; it will be appreciated by persons skilled in the art that the above embodiments are not intended to limit the utility model in any way, and that all technical solutions obtained by means of equivalent substitutions or equivalent transformations fall within the scope of the utility model.

Claims (9)

1. The utility model provides a low-carbon energy-conserving high-rise building window's ventilation curtain structure which characterized in that: the front side stile and the two rear side stiles are arranged in an isosceles triangle; two rear side erects club respectively with building structure fixed connection, set up perforation aluminum plate between every rear side erects club and the front side erects club, set up a plurality of non-transparent windows between two rear side erects club, a plurality of non-transparent windows arrange in proper order along vertical direction, and wherein at least one non-transparent window is the opening window that can outwards open, and other non-transparent windows are fixed window.

2. The structure of claim 1, wherein a plurality of stiles are connected between the two rear stiles, and the non-transparent window is located between two adjacent stiles.

3. The ventilating curtain wall structure of a low-carbon and energy-saving high-rise building window according to claim 1, wherein a supporting stile is connected between the building structure and the front side stile.

4. A low-carbon energy-saving ventilation curtain wall structure for a high-rise building window according to claim 3, wherein the supporting stile is of a U-shaped structure, two ends of the opening of the U-shaped structure supporting stile are fixedly connected with the building structure, and the outer side of the bending part of the U-shaped structure supporting stile is fixedly connected with the front vertical stile.

5. The ventilating curtain wall structure of a low-carbon energy-saving high-rise building window according to claim 1, wherein the front side edge of the perforated aluminum plate is fixedly connected with the front side stile through an aluminum alloy decorative profile.

6. The ventilating curtain wall structure of a low-carbon and energy-saving high-rise building window according to claim 5, wherein a gap for installing a lamp strip is reserved between aluminum alloy decorative profiles at the front side edges of two perforated aluminum plates.

7. A low carbon energy efficient high rise building window ventilation curtain wall construction according to any one of claims 1, 5, 6 wherein the perforated aluminium sheet has a thickness of 3-4mm.

8. The structure of claim 1, wherein the front stile and the rear stile are metal square tubes.

9. A low carbon, energy efficient high rise building window ventilation curtain wall construction according to claim 1 wherein said non-transparent window is a metal sandwich insulation panel.