CN220928362U - Vertical keel ventilation node structure of glass curtain wall - Google Patents

Abstract

The utility model discloses a ventilation node structure of a vertical keel of a glass curtain wall. The aluminum alloy vertical stiles are fixed on the building main body, heat insulation materials are arranged on the inner wall of the middle air duct of each aluminum alloy vertical stile, each aluminum alloy vertical stile is in sealing connection with the double-toughened hollow glass through an indoor sealing rubber strip/sealing silicone adhesive, the aluminum alloy pressing plate is firmly fixed with each aluminum alloy vertical stile through a stainless steel bolt, an outdoor sealing rubber strip is used for sealing between the aluminum alloy pressing plate and the double-toughened hollow glass, and the outdoor perforated aluminum alloy buckle cover is tightly buckled on the aluminum alloy pressing plate; the ventilation box is fixed on the aluminum alloy vertical stile, the indoor perforated aluminum alloy buckle cover is tightly buckled on the ventilation box, and the opening size of the shutter is adjusted through the sliding block at the side edge of the ventilation box to adjust the ventilation quantity. The utility model has the advantages of complete structure, convenient and quick manufacture and installation, high standardization degree, improvement of indoor air environment of the building and reduction of energy consumption required by air conditioning, and can be widely applied to glass curtain wall buildings.

Description

Vertical keel ventilation node structure of glass curtain wall

Technical Field

The utility model belongs to the field of building node construction, and particularly relates to a ventilation node construction of a vertical keel of a glass curtain wall.

Background

Along with the continuous improvement of living standard, the requirements of people on indoor air environment are higher and higher. In general, indoor and outdoor air is exchanged through a windowed natural ventilation and indoor fresh air system. However, in building design, the number of opening fans is sometimes reduced to ensure the regularity of building facades; therefore, the natural ventilation effect can be affected, and the energy consumption of an additional fresh air system is increased.

The vertical keel of the glass curtain wall has the functions of ventilation and ventilation at the same time of taking the function of the keel into consideration by a more reasonable technology so as to supplement the problem of insufficient ventilation quantity of the opening fan. In the prior art, a keel node which can give consideration to ventilation and air exchange functions is lacking.

Disclosure of utility model

In order to solve the problem that the indoor ventilation effect of the glass curtain wall building is poor due to the fact that the number of openable windows on the outer vertical face is small; the utility model discloses a ventilation node structure of a vertical keel of a glass curtain wall, which can be widely applied to glass curtain wall buildings and can enhance the indoor natural ventilation of the buildings.

The technical scheme adopted by the utility model is as follows:

The node structure comprises an aluminum alloy vertical tappet positioned in a room;

Comprises a ventilation component positioned indoors and fixedly connected with one side of an aluminum alloy vertical stile far away from the outside;

comprises an indoor perforated aluminum alloy buckle cover which is connected with a ventilation assembly;

comprises an aluminum alloy pressing plate positioned outdoors, and is fixedly connected with one side of an aluminum alloy vertical stiffener far away from the indoor;

comprises an outdoor perforated aluminum alloy buckle cover which is connected with an aluminum alloy pressing plate;

comprises double toughened hollow glass, which is fixed between an aluminum alloy vertical stiffener and an aluminum alloy pressing plate.

The ventilation assembly comprises a ventilation box, a built-in shutter and a switch sliding block; one side of the ventilation box, which is close to the outside, is fixedly connected with the aluminum alloy vertical stiffener through a fixing screw, one side of the ventilation box, which is far away from the outside, is fixedly connected with the indoor perforated aluminum alloy buckle cover, the built-in shutter is connected with one side of the ventilation box, which is close to the indoor perforated aluminum alloy buckle cover, the switch slide block can be arranged on the ventilation box in an up-down sliding manner, and the switch slide block is connected with the built-in shutter.

One side of the aluminum alloy pressing plate, which is close to the room, is fixedly connected with the aluminum alloy vertical stiffener through a stainless steel bolt, and one side of the aluminum alloy pressing plate, which is far away from the room, is fixedly connected with the outdoor perforated aluminum alloy buckle cover.

One end of the aluminum alloy vertical stile, which is close to the outside, is in sealing connection with the double-toughened hollow glass through a sealing silicone adhesive and an indoor sealing rubber strip; one side, which is close to the indoor side, of the aluminum alloy pressing plate is in sealing connection with the double-toughened hollow glass through an outdoor sealing rubber strip.

The aluminum alloy vertical stile mainly comprises a ventilation cavity and a stress cavity for bearing external force, wherein the stress cavity is arranged on the left side and the right side of the ventilation cavity, the inner side wall of the ventilation cavity is coated with heat insulation materials, and ventilation holes for ventilation are formed in the front side and the rear side of the ventilation cavity.

The surfaces of the aluminum alloy stiles and the aluminum alloy pressing plates are coated with fluorocarbon paint, and the widths of the aluminum alloy stiles and the aluminum alloy pressing plates are the same.

The indoor perforated aluminum alloy buckle cover and the outdoor perforated aluminum alloy buckle cover are respectively provided with a plurality of ventilation round holes which are arranged in a rectangular array at intervals.

The glass curtain wall vertical keel ventilation node structure adopts the aluminum alloy vertical girders with better ventilation performance as the vertical keels, can be widely applied to glass curtain wall buildings, and can enhance natural ventilation in the building. The utility model has the advantages of complete structure, convenient and quick manufacture and installation, high standardization degree, improvement of indoor air environment of the building and reduction of energy consumption required by air conditioning. Can be widely applied to glass curtain wall buildings.

The beneficial effects of the utility model are as follows:

1. And the curtain wall vertical keels are utilized for ventilation, so that the indoor air quality and the building ventilation environment are improved.

2. The curtain wall vertical keel is utilized for ventilation, so that the opening frequency of an indoor fresh air fan can be reduced, and the energy-saving effect is achieved.

3. The curtain wall vertical keel is utilized for ventilation, so that the opening quantity of the outer window can be reduced, and the building elevation is tidier.

Drawings

FIG. 1 is a plan view of the present node construction;

FIG. 2 is an isometric view of the present node construction;

FIG. 3 is an isometric view of an aluminum alloy stile;

FIG. 4 is an isometric view of an aluminum alloy platen;

FIG. 5 is an isometric view of an outdoor perforated aluminum alloy buckle cover;

FIG. 6 is an isometric view of a perforated aluminum alloy snap cover in a room;

FIG. 7 is an isometric view of a venting box;

In the figure: 1. an indoor perforated aluminum alloy buckle cover; 2. a ventilation box; 3. built-in louvers; 4. a switch slide; 5. a set screw; 6. a thermal insulation material; 7. aluminum alloy vertical stiles; 8. sealing silicone adhesive; 9. an indoor sealing rubber strip; 10. an outdoor sealing rubber strip; 11. stainless steel bolts; 12. a rubber gasket; 13. outdoor perforated aluminum alloy buckle cover; 14. an aluminum alloy pressing plate; 15. double toughened hollow glass.

Detailed Description

The utility model will now be described in detail with reference to specific examples which will assist those skilled in the art in further understanding the utility model, but which are not intended to be limiting in any way.

As shown in fig. 1 and 2, the node construction includes aluminum alloy stiles 7 located in the chamber;

Comprises a ventilation component positioned indoors and fixedly connected with one side of an aluminum alloy vertical tappet 7 far away from the outside;

comprises an indoor perforated aluminum alloy buckle cover 1 positioned indoors and connected with a ventilation assembly;

Comprises an aluminum alloy pressing plate 14 positioned outdoors and fixedly connected with one side of the aluminum alloy stile 7 far from the indoor;

comprises an outdoor perforated aluminum alloy buckle cover 13 positioned outdoors and connected with an aluminum alloy pressing plate 14;

Comprises a double toughened hollow glass 15 which is fixed between an aluminum alloy vertical tappet 7 and an aluminum alloy pressing plate 14.

The ventilation assembly comprises a ventilation box2, a built-in shutter 3 and a switch slide block 4; one side of the ventilation box2, which is close to the outside, is fixedly connected with an aluminum alloy vertical tappet 7 through a fixing screw 5, one side of the ventilation box2, which is far away from the outside, is fixedly connected with an indoor perforated aluminum alloy buckle cover 1, an embedded shutter 3 is connected to one side of the ventilation box2, which is close to the indoor perforated aluminum alloy buckle cover 1, a switch slide block 4 is arranged on the ventilation box2 in a vertically sliding manner, the switch slide block 4 is connected with the embedded shutter 3, and the switch slide block 4 is used for controlling the opening and closing states of the embedded shutter 3.

One side of the aluminum alloy pressing plate 14, which is close to the room, is fixedly connected with the aluminum alloy vertical stile 7 through a stainless steel bolt 11, and one side of the aluminum alloy pressing plate 14, which is far from the room, is fixedly connected with the outdoor perforated aluminum alloy buckle cover 13.

The aluminum alloy pressing plate 14 is also in sealing connection with the aluminum alloy stile 7 through a rubber gasket 12.

One end of the aluminum alloy vertical stile 7, which is close to the outside, is in sealing connection with the double-toughened hollow glass 15 through a sealing silicone adhesive 8 and an indoor sealing rubber strip 9; one side of the aluminum alloy pressing plate 14, which is close to the indoor side, is in sealing connection with the double-toughened hollow glass 15 through the outdoor sealing rubber strip 10.

As shown in fig. 3, the aluminum alloy stile 7 mainly comprises a ventilation cavity and a stress cavity for bearing external force, the stress cavity is arranged on the left side and the right side of the ventilation cavity, the inner side wall of the ventilation cavity is coated with a heat insulation material 6, and the front side and the rear side of the ventilation cavity are provided with ventilation holes for ventilation.

The surfaces of the aluminum alloy stiles 7 and the aluminum alloy pressing plates 14 are coated with fluorocarbon paint, and the widths of the aluminum alloy stiles 7 and the aluminum alloy pressing plates 14 in the left-right direction are the same.

The indoor perforated aluminum alloy buckle cover 1 and the outdoor perforated aluminum alloy buckle cover 13 are respectively provided with a plurality of ventilation round holes which are arranged in a rectangular array at intervals.

When the joint is manufactured and installed, the aluminum alloy stiles 7 are firstly fixed on a building main body, heat insulation materials 6 are installed on the inner walls of two sides of an air duct in the middle of each aluminum alloy stile 7, double toughened hollow glass 15 is installed on the outdoor side, a gap between the double toughened hollow glass 15 and each aluminum alloy stile 7 is sealed by using sealing silicone adhesive 8 and an indoor sealing rubber strip 9, an aluminum alloy pressing plate 14 is firmly fixed with each aluminum alloy stile 7 by using a stainless steel bolt 11, and an outdoor sealing rubber strip 10 is used for sealing between the aluminum alloy pressing plate 14 and the double toughened hollow glass 15. The outdoor perforated aluminum alloy buckle cover 13 is fastened on the aluminum alloy pressing plate 14. The indoor side, ventilation box 2 are fixed on aluminum alloy erects the tappet 7 with set screw 5, and indoor perforation aluminum alloy buckle closure 1 buckles on ventilation box 2 tightly, and the built-in tripe 3 in the ventilation box 2 is through the size of the opening of the built-in tripe 3 of the switch slider 4 adjustment of ventilation box 2 side in order to adjust the ventilation volume.

As shown in figure 3, the aluminum alloy stile 7 is specially designed for ventilation, has the width of 150-200 mm at the left and right, the thickness of 200-250 mm at the top and bottom, the wall thickness of 3mm and the surface of the aluminum alloy stile is coated with fluorocarbon paint. The outer walls of the four cavities on the left side and the right side of the aluminum alloy vertical stile 7 are main stress areas of the aluminum alloy vertical stile 7, bear vertical loads of curtain walls and guarantee stability of the structure. The middle ventilation cavity is a ventilation channel, 50 mm-80 mm ventilation holes are sequentially formed in the front outer wall and the rear outer wall, and the ventilation holes are spaced by 20 mm-30 mm. So as to ensure that the air can circulate normally. And heat insulation materials 6 are arranged on the inner walls of the two sides of the ventilating duct, so that the heat bridge effect is reduced.

As shown in FIG. 4, the aluminum alloy platen 14 had a wall thickness of 3mm and was coated with a light gray fluorocarbon paint. The width is 150 mm-200 mm, and is generally equal to the width of the aluminum alloy stile 7, and the two-end buckle design can be firmly connected with the perforated aluminum plate.

As shown in fig. 5 and 6, the indoor perforated aluminum alloy buckle cover 1 and the outdoor perforated aluminum alloy buckle cover 13 are fixed in a snap-fit manner. The wall thickness of the two holes is 3mm, and the size and the number of the holes can be designed according to the modeling effect.

As shown in fig. 7, the ventilation box 2 is made of aluminum alloy, and has a wall thickness of 3mm. The bolt and the screw are used for fixing the aluminum alloy vertical stile 7, so that the installation and the replacement are convenient. The plastic shutter is arranged in the ventilation box, the shutter can be adjusted to be opened by mechanical linkage through sliding the side switch slide block 4 of the ventilation box 2 up and down.

The linking structure of the aluminum alloy stiles 7 and the building main body, the linking and mounting structure of the glass and the upright posts and the like are consistent with the traditional building method, and the aluminum alloy stiles have no technical innovation and are not repeated.

The embodiments described in the present specification are merely examples of implementation forms of the inventive concept, and the scope of protection of the present utility model should not be construed as being limited to the specific forms set forth in the embodiments, and the scope of protection of the present utility model and equivalent technical means that can be conceived by those skilled in the art based on the inventive concept.

Claims (7)

1. A glass curtain wall vertical keel ventilation node structure is characterized in that:

comprises an aluminum alloy vertical tappet (7) positioned in a room;

comprises a ventilation component positioned indoors and fixedly connected with one side of an aluminum alloy vertical tappet (7) far away from the outside;

comprises an indoor perforated aluminum alloy buckle cover (1) which is connected with a ventilation assembly;

Comprises an aluminum alloy pressing plate (14) positioned outdoors and fixedly connected with one side of an aluminum alloy vertical tappet (7) far away from the indoor;

comprises an outdoor perforated aluminum alloy buckle cover (13) which is connected with an aluminum alloy pressing plate (14);

Comprises a double toughened hollow glass (15) which is fixed between an aluminum alloy vertical tappet (7) and an aluminum alloy pressing plate (14).

2. The glass curtain wall vertical keel ventilation node structure of claim 1, wherein:

The ventilation assembly comprises a ventilation box (2), a built-in shutter (3) and a switch sliding block (4); one side of the ventilation box (2) close to the outside is fixedly connected with an aluminum alloy vertical stiffener (7) through a fixing screw (5), one side of the ventilation box (2) far away from the outside is fixedly connected with an indoor perforated aluminum alloy buckle cover (1), the built-in shutter (3) is connected to one side of the ventilation box (2) close to the indoor perforated aluminum alloy buckle cover (1), the switch sliding block (4) can be arranged on the ventilation box (2) in a vertical sliding mode, and the switch sliding block (4) is connected with the built-in shutter (3).

3. The glass curtain wall vertical keel ventilation node structure of claim 1, wherein:

One side of the aluminum alloy pressing plate (14) close to the room is fixedly connected with the aluminum alloy vertical stile (7) through a stainless steel bolt (11), and one side of the aluminum alloy pressing plate (14) far away from the room is fixedly connected with the outdoor perforated aluminum alloy buckle cover (13).

4. The glass curtain wall vertical keel ventilation node structure of claim 1, wherein:

One end, close to the outside, of the aluminum alloy vertical stile (7) is in sealing connection with the double toughened hollow glass (15) through a sealing silicone adhesive (8) and an indoor sealing rubber strip (9); one side, which is close to the indoor side, of the aluminum alloy pressing plate (14) is in sealing connection with the double-toughened hollow glass (15) through an outdoor sealing rubber strip (10).

5. The glass curtain wall vertical keel ventilation node structure of claim 1, wherein:

The aluminum alloy vertical stile (7) mainly comprises a ventilation cavity and a stress cavity for bearing external force, wherein the stress cavity is arranged on the left side and the right side of the ventilation cavity, the inner side wall of the ventilation cavity is coated with a heat insulation material (6), and ventilation holes for ventilation are formed in the front side and the rear side of the ventilation cavity.

6. The glass curtain wall vertical keel ventilation node structure of claim 1, wherein:

The surfaces of the aluminum alloy stiles (7) and the aluminum alloy pressing plates (14) are coated with fluorocarbon paint, and the widths of the aluminum alloy stiles (7) and the aluminum alloy pressing plates (14) are the same.

7. The glass curtain wall vertical keel ventilation node structure of claim 1, wherein:

The indoor perforated aluminum alloy buckle cover (1) and the outdoor perforated aluminum alloy buckle cover (13) are respectively provided with a plurality of ventilation round holes which are arranged in a rectangular array at intervals.