CN203240703U - Glass curtain wall interlayer ventilation system for building - Google Patents

Abstract

The utility model relates to an interlayer ventilation system for architectural glass curtain walls, comprising a glass curtain wall (1) and a transverse keel (2), the glass curtain wall (1) is layered through the transverse keel (2), and is characterized in that: 1. Ventilation louvers (3) are provided at the joints of the glass curtain walls (1) on the lower two floors, ventilators (4) are provided at the transverse keel (2) corresponding to the upper glass curtain wall (1) on the inside of the building, and ventilators (4) are provided on the adjacent upper floors. , The cavity formed by the horizontal keel (2) of the lower two layers of glass curtain walls (1) and the building structural surface (5) is provided with an air deflector (6), which is composed of ventilation shutters (3) and ventilators (4), The air deflectors (6) are connected to form an interlayer ventilation system of the glass curtain wall. The utility model makes the whole building more tidy and beautiful through the ventilation shutters arranged between the transverse keels of the upper and lower layers of glass curtain walls, and achieves the effect of comfort and energy saving.

Description

Ventilation system between floors of building glass curtain wall

technical field

The utility model relates to an interlayer ventilation system of a building glass curtain wall. The invention belongs to the technical field of ventilation structures in glass curtain wall buildings. the

Background technique

There are glass curtain walls on the periphery of the existing buildings. In order to meet the requirements of the building's indoor ventilation system, the curtain wall windows that open the glass curtain walls are mainly used to provide natural ventilation for the building interior. However, there are the following problems in opening curtain wall windows: ①. Since most modern buildings have high floors, and the wind speed around high-rise buildings is very high, the traditional window opening method is difficult to control the wind intake and wind speed due to the limited opening angle and area. Effective control, poor ventilation effect; ②, if the size of the window is the same as the unit size of the curtain wall, it will be inconvenient to open because the area of the window will be too large; if the size of the window becomes smaller, it will not be the same as the unit size of the curtain wall , will affect the facade effect of the building curtain wall. ③. The sound insulation effect is weak, the noise is loud, and it is also prone to water leakage or seepage. the

Utility model content

The purpose of this utility model is to overcome the above disadvantages and provide an interlayer ventilation system for architectural glass curtain walls. The ventilation system has a simple structure, good ventilation effect, reduced noise and makes the facade of the glass curtain wall neat, clean and beautiful. the

The purpose of this utility model is realized through the following technical solutions:

The ventilation system between floors of architectural glass curtain walls includes glass curtain walls and transverse keels, and the glass curtain walls are layered through the transverse keels. Ventilators are installed at the horizontal keels of the upper glass curtain wall on the inner side, and air deflectors are provided in the cavity formed by the horizontal keels of the adjacent upper and lower glass curtain walls and the structural surface of the building. Ventilation louvers and ventilators, The air deflectors are connected to form the interlayer ventilation system of the glass curtain wall. the

The purpose of the utility model can also be achieved through the following technical solutions:

A further solution of the utility model: the ventilator can be placed horizontally. the

A further solution of the utility model: a stainless steel square tube skirting board can be provided between the ventilator and the indoor ground level. the

A further solution of the utility model: the ventilator may be an adjustable ventilator. the

A further solution of the utility model: the air deflector can be L-shaped, one end of the air deflector is connected to the ventilator, and the other end is connected to the transverse keel of the adjacent lower glass curtain wall. the

A further solution of the present utility model: the height of the ventilation louver can be 150mm. the

A further proposal of the present utility model: the ventilating louvers are bonded to the transverse keels of the adjacent upper and lower glass curtain walls by weather-resistant glue. the

A further solution of the present utility model: the ventilation louver can be made of aluminum alloy. the

A further solution of the utility model: the air deflector can be made of an aluminum veneer with a thickness of 2mm. the

The beneficial effects of the utility model:

1. The utility model connects the ventilator on the inside of the building with the ventilation louvers on the outside of the building through the air deflector, forming a through cavity that communicates the interior and exterior of the building. The outdoor fresh air enters through the ventilation louver and enters through the deflector. Ventilators, thereby achieving air convection and also preventing rainwater from entering the room. At the same time, the facade of the building can be beautified by changing the ventilation louvers on the outside of the building. In addition, the ventilators between layers of the glass curtain wall can effectively reduce the external noise and ensure a quiet indoor working environment. The ventilators between the layers of the glass curtain wall also make the function and form of the building perfectly combined. The utility model has the beneficial effects of simple structure and effective adjustment of indoor natural ventilation, reducing the use of air conditioners, preventing rainwater from entering the room, and reducing outdoor noise. the

2. The utility model makes the whole building more tidy and beautiful through the ventilation louvers arranged between the horizontal keels of the upper and lower glass curtain walls, and achieves the effect of comfort and energy saving. the

Description of drawings

Fig. 1 is a sectional view of a partial structure of a specific embodiment 1 of the present invention. the

Fig. 2 is a partial orthographic projection view of the utility model. the

Detailed ways

Below in conjunction with accompanying drawing, the utility model is further described. the

Specific embodiment 1:

As shown in Figures 1 and 2, this embodiment includes a glass curtain wall 1 and a transverse keel 2. The glass curtain wall 1 is layered through the transverse keel 2, and ventilation is provided at the joint of the adjacent upper and lower floors of the glass curtain wall 1. The shutters 3 are provided with a ventilator 4 at the transverse keel 2 of the upper glass curtain wall 1 on the inner side of the building, and an air vent is provided in the cavity formed by the transverse keel 2 of the adjacent upper and lower glass curtain walls 1 and the building structural surface 5. The deflector 6 is connected with the ventilator 4 and the air deflector 6 by the ventilation louvers 3 to form a ventilation system between layers of the glass curtain wall. the

In this example:

A multilayer glass curtain wall 1 is arranged on a building facade, and each layer of glass curtain wall 1 is supported by a layer of horizontal keels 2, and each layer of horizontal keel 2 is provided with a plurality of ventilation shutters 3, a plurality of ventilators 4 and a plurality of air guides. The flow plate 6 constitutes the interlayer ventilation system of the glass curtain wall. The ventilation shutter 3 is arranged on the outside of the building, the ventilation shutter 3 is made of aluminum alloy, the height of the ventilation shutter 3 is 150 mm, and the ventilation shutter 3 is bonded to the horizontal keel 2 of the upper and lower glass curtain walls 1 by weather-resistant adhesive; The lateral keel 2 corresponding to the upper glass curtain wall 1 on the inner side is provided with a ventilator 4, the ventilator 4 is an adjustable ventilator, the ventilator 4 is placed horizontally, and is on the same plane as the transverse keel 2 of the upper glass curtain wall 1; An air deflector 6 is provided in the cavity formed by the transverse keel 2 of the upper and lower glass curtain walls 1 and the building structural surface 5. The air deflector 6 is made of an aluminum veneer with a thickness of 2 mm. L-shaped, one end of the air deflector 6 is connected to the ventilator 4, and the other end is connected to the transverse keel 2 of the lower glass curtain wall 1; a stainless steel square tube skirting board 8 is provided between the ventilator 4 and the indoor ground level 7. the

The utility model can set aluminum alloy ventilation louvers at a height of 120-180mm under the horizontal keel of each layer of the curtain wall, and install indoor adjustable ventilators at the level corresponding to the horizontal keel on the inner side of the building. The aluminum air deflector connects the adjustable ventilator on the inside of the building with the aluminum alloy ventilation louvers on the outside of the building, thus forming a cavity that communicates the interior and exterior of the building, so that the adjustable ventilator inside the building can be used It can effectively control the ventilation volume and wind speed without affecting the facade of the building curtain wall. At the same time, it can also beautify the building facade by changing the form of aluminum alloy ventilation louvers on the outside of the building; in addition, the ventilator between the curtain walls can also effectively weaken the exterior noise, resulting in a quiet indoor environment. The function and form of the building are perfectly unified through the use of the ventilator between the curtain walls. the

Claims (9)

1. Ventilation system between floors of building glass curtain wall, including glass curtain wall (1) and transverse keel (2), and glass curtain wall (1) is layered through transverse keel (2), characterized in that: on the adjacent upper and lower floors Ventilation louvers (3) are provided at the junction of the glass curtain wall (1), and a ventilator (4) is provided at the horizontal keel (2) corresponding to the upper glass curtain wall (1) on the inner side of the building, and a ventilator (4) is provided at the adjacent upper and lower floors The cavity formed by the transverse keel (2) of the glass curtain wall (1) and the building structural surface (5) is provided with an air deflector (6), which is composed of ventilation shutters (3), ventilators (4), air deflectors (6) Connected to form the interlayer ventilation system of the glass curtain wall. the 2. The ventilation system between layers of architectural glass curtain wall according to claim 1, characterized in that: the ventilator (4) is placed horizontally. the 3. The building glass curtain wall interfloor ventilation system according to claim 1 or 2, characterized in that: a stainless steel square tube skirting board (8) is provided between the ventilator (4) and the indoor ground level (7). the 4. The ventilation system between layers of architectural glass curtain wall according to claim 1 or 2, characterized in that: the ventilator (4) is an adjustable ventilator. the 5. The interlayer ventilation system of architectural glass curtain wall according to claim 1, characterized in that: the air deflector (6) is L-shaped, and one end of the air deflector (6) is connected to the ventilator (4), The other end is connected with the transverse keel (2) of the adjacent lower floor glass curtain wall (1). the 6. The ventilation system between floors of architectural glass curtain walls according to claim 1, characterized in that: the height of the ventilation shutters (3) is 150mm. the 7. The ventilation system between layers of architectural glass curtain walls according to claim 1 or 6, characterized in that: the ventilation louvers (3) are bonded to the transverse direction of the adjacent upper and lower layers of glass curtain walls (1) by weather-resistant adhesives. on the keel (2). the 8. The ventilation system between floors of architectural glass curtain walls according to claim 1 or 6, characterized in that: the ventilation louvers (3) are made of aluminum alloy. the 9. The building glass curtain wall interlayer ventilation system according to claim 1 or 5, characterized in that: the air guide plate (6) is made of an aluminum veneer with a thickness of 2 mm. the

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