CN220814458U - Breathing type torsion fold line type unitized curtain wall - Google Patents

Abstract

The application relates to a breathing type torsion fold line type unit curtain wall, which comprises a plurality of unit plates which are connected in sequence, wherein the unit plates comprise embedded parts connected with a building main structure, upright post connecting parts arranged on the embedded parts, upright posts arranged on the upright post connecting parts, cross beams arranged between the upright posts, glass unit frames arranged between the upright posts and the cross beams and glass units arranged in the glass unit frames; and the other glass unit adjacent to one glass unit deflects in a direction away from the plane where the one glass unit is positioned, and a respiratory curtain wall unit is arranged between the one glass unit and the other adjacent glass unit. The application has the effect of improving the ventilation function of the curtain wall.

Description

Breathing type torsion fold line type unitized curtain wall

Technical Field

The application relates to the field of unitized curtain walls, in particular to a breathing type torsion fold line type unitized curtain wall.

Background

Along with the rapid development of the building industry, people are no longer satisfied with a single building appearance style, curtain walls are taken as important components of modern building decoration, and are more and more widely applied to public building outer walls, the styles of the curtain walls are no longer single and conservative, the appearance changes are more and more abundant, and lines are more and more lively. Although the special-shaped curtain wall meets the pursuit of people on the building appearance rich in aesthetic feeling, in practice, ventilation and safety of the curtain wall are all the difficulties of the curtain wall, in order to reduce energy consumption, the curtain wall is designed to have as few windows as possible, the windows are also mostly top-hung windows, the rotating angle positions of the top-hung windows are fixed when the top-hung windows are opened, the curtain wall can only perform ventilation and air exchange through the wind direction blown from the front of the window in general, and the ventilation and air exchange functions are weaker.

Disclosure of utility model

In order to improve the ventilation function of the curtain wall, the application provides a breathing type torsion fold line type unit curtain wall.

The breathing type torsion fold line type unit curtain wall provided by the application adopts the following technical scheme:

The breathing type torsion fold line type unit curtain wall comprises a plurality of unit plates which are connected in sequence, wherein the unit plates comprise embedded parts connected with a building main structure, upright post connecting pieces arranged on the embedded parts, upright posts arranged on the upright post connecting pieces, cross beams arranged between the upright posts, glass unit frames arranged between the upright posts and the cross beams and glass units arranged in the glass unit frames; and the other glass unit adjacent to one glass unit deflects in a direction away from the plane where the one glass unit is positioned, and a respiratory curtain wall unit is arranged between the one glass unit and the other adjacent glass unit.

By adopting the technical scheme, as the other glass unit adjacent to one glass unit deflects in the direction away from the plane where the one glass unit is positioned, a respiratory curtain wall unit is arranged between the one glass unit and the other adjacent glass unit. When wind exists, the glass unit deflects a certain angle, so that even if the wind does not blow to the front surface of the window, a part of the wind can deflect a certain angle, and then the wind enters the building from the adjacent respiratory curtain wall units, thereby improving the ventilation function of the curtain wall.

Optionally, the plurality of glass units are deflected one by one from left to right along the horizontal direction and the plurality of glass units are deflected one by one from bottom to top along the vertical direction.

Through adopting above-mentioned technical scheme, the unit plate of every layer of curtain presents the zigzag and twists reverse the molding at the coplanar, forms by the intermediate level upwards with the building facade effect of downward two directions deflection gradually, the zigzag twists reverse the molding and has improved the sunshade performance of curtain, has reduced the energy consumption of building, and the appearance of curtain is pleasing to the eye, the line is lively and wave.

Optionally, the glass unit of one of the unit panels forms an included angle of 1-3 ° with the glass unit of the adjacent other unit panel.

By adopting the technical scheme, the glass unit of one unit plate and the glass unit of the adjacent other unit plate form an included angle of 1-3 degrees, the included angle is smaller, and the adjacent glass units are convenient to install on the same working surface.

Optionally, the respiratory curtain wall unit comprises a side frame, a side glass unit arranged on one side of the side frame, which is close to the main structure of the building, and a porous aluminum plate arranged on the side frame, which is far away from the main structure of the building.

Through adopting above-mentioned technical scheme, breathing formula curtain unit is two-layer, forms the air exchange passageway between the porous aluminum plate who is close to one side glass unit of building major structure and keeps away from building major structure, has realized the thermal-insulated function of heat preservation of curtain.

Optionally, a side frame of the side frame, which is close to the main structure of the building, is further provided with a casement window.

By adopting the technical scheme, the side-hung window increases the natural ventilation performance of the curtain wall, reduces the influence of typhoons in coastal cities on the safety performance of the curtain wall, and ensures that the curtain wall of a public building is safer.

Optionally, the casement window comprises a window frame arranged in the side frame, a window sash rotatably arranged in the window frame, a lock catch component for locking the window sash to the window frame, and a handle arranged on one side of the window sash away from the porous aluminum plate.

Through adopting above-mentioned technical scheme, open ventilation through the handle push away the casement, can close the flat-open window in pulling the window frame into with the casement through the handle, convenient to use, ventilation effect is good.

Optionally, a decorative strip is arranged at the joint of the unit plate and the respiratory curtain wall unit.

By adopting the technical scheme, the decorative strip can cover the joint between the unit plate and the respiratory curtain wall unit, so that the building appearance is more attractive.

Optionally, a first fireproof layer is arranged in the unit plate, and a second fireproof layer is arranged in the respiratory curtain wall unit.

Through adopting above-mentioned technical scheme, be provided with first flame retardant coating in the unit plate, be provided with the second flame retardant coating in the breathing type curtain unit. The first fireproof layer and the second fireproof layer can improve fireproof performance of the curtain wall and enhance heat insulation performance of the curtain wall.

Optionally, a third fireproof layer is arranged among each unit plate, each respiratory curtain wall unit and the main building structure.

Through adopting above-mentioned technical scheme, be provided with the third flame retardant coating between each unit plate, each breathing formula curtain unit and the building major structure, can improve the fire behavior of building, can strengthen the thermal insulation performance of curtain again.

In summary, the application has the following beneficial technical effects:

1. When wind exists, the glass unit deflects a certain angle, so that even if the wind does not blow to the front surface of the window, a part of the wind can deflect a certain angle, and then the wind enters the building from the adjacent respiratory curtain wall units, thereby improving the ventilation function of the curtain wall. The unit plates of each layer of the curtain wall are in a zigzag torsion shape on the same plane, each layer of plate deflects 1-3 degrees from the adjacent layers, the building elevation effect of gradually deflecting upwards and downwards from the middle layer is formed, the zigzag torsion shape improves the sun-shading performance of the curtain wall, and the energy consumption of a building is reduced.

2. Compared with the traditional single building curtain wall appearance style, the curtain wall disclosed by the application has rich appearance change and active wave lines, and can better meet the pursuit of people on attractive appearance.

3. A breathing curtain wall unit is arranged between one glass unit and the other adjacent glass unit, one side, far away from the building main body structure, of the breathing curtain wall unit is a porous aluminum plate, one side, close to the building main body structure, of the breathing curtain wall unit is a side glass unit, an air exchange channel is formed between the side glass unit and the porous aluminum plate, the heat insulation function of the curtain wall is achieved, the flat-open window is used for increasing the natural ventilation performance of the curtain wall, the influence of coastal city typhoons on the safety performance of the curtain wall is reduced, and the curtain wall of a public building is safer.

Drawings

Fig. 1 is a schematic structural view of an embodiment of the present application.

Fig. 2 is a schematic view showing the structure of two adjacent unit panels and a respiratory curtain wall unit in fig. 1.

Fig. 3 is an enlarged schematic diagram showing a in fig. 2.

Fig. 4 is a schematic view of the structure of fig. 2 at another angle.

Reference numerals illustrate:

1. A unit plate; 11. an embedded part; 12. a column connector; 13. a column; 14. a cross beam; 15. a glass unit frame; 16. a glass unit; 2. a respiratory curtain wall unit; 21. a side frame; 22. a side glass unit; 23. a porous aluminum plate; 24. a casement window; 241. a window frame; 242. window sashes; 243. a latch assembly; 244. a handle; 3. a decorative strip; 4. a first fire-blocking layer; 5. a second fire-blocking layer; 6. and a third fireproof layer.

Detailed Description

The present application will be described in further detail below.

The embodiment of the application discloses a breathing type torsion fold line type unit curtain wall, which comprises a plurality of unit plates 1 which are connected in sequence, and is shown in figure 1.

Referring to fig. 2, a number of unit panels 1 include an embedment 11 connected with a building main structure, a column connector 12 installed on the embedment 11, columns 13 installed on the column connector 12, beams 14 installed between the columns 13, a glass unit frame 15 installed between the columns 13 and the beams 14, and a glass unit 16 installed in the glass unit frame 15. Referring to fig. 3, in the embodiment of the present application, the embedded part 11 is a plate-type embedded part 11. The embedded part 11 is fixedly connected with the upright post connecting part 12. The upright posts 13 are fixedly connected with the upright post connecting pieces 12. The cross beam 14 is fixedly connected with the upright post 13. The glass unit frame 15 is fixedly installed between the upright 13 and the cross beam 14. The glass unit frame 15 is fixedly provided with a first fireproof layer 4, and the first fireproof layer 4 comprises a fireproof iron plate fixedly connected to the inner side of the glass unit frame 15 and fireproof rock wool filled between the fireproof iron plate and the inner side of the glass unit frame 15. The first fireproof layer 4 can improve the fireproof performance of the curtain wall and enhance the heat preservation performance of the curtain wall. The glass unit 16 is fixedly mounted in a glass unit frame 15 provided with a first fire-resistant layer 4. Referring to fig. 1, one of the glass units 16 adjacent to the other glass unit 16 is deflected in a direction away from the plane of one of the glass units 16. When wind is present, the glass unit 16 deflects a certain angle, so that even if the wind does not blow to the front of the window, the glass unit 16 can deflect a part of the wind by a certain angle, and then the wind enters the building from the adjacent respiratory curtain wall unit 2, thereby improving the ventilation function of the curtain wall. Wherein the glass units 16 of one unit panel 1 form an angle of 1-3 ° with the glass units 16 of an adjacent other unit panel 1. The included angle is small, so that adjacent glass units 16 can be installed on the same working surface. The plurality of glass units 16 are deflected one by one from left to right in the horizontal direction and the plurality of glass units 16 are deflected one by one from bottom to top in the vertical direction. In the embodiment of the application, a plurality of glass units 16 deflect from left to right one by one along the horizontal direction, and each glass unit 16 forms an included angle of 2.8 degrees with the adjacent glass units 16 on the left; the plurality of glass units 16 are deflected from bottom to top in the vertical direction, each glass unit 16 forming an angle of 2.8 ° with the adjacent glass unit 16 below. The unit plate 1 of each layer of the curtain wall presents a zigzag torsion modeling on the same plane to form a building elevation effect of gradually deflecting upwards and downwards from the middle layer, the zigzag torsion modeling improves the sun shading performance of the curtain wall, reduces the energy consumption of a building, and the curtain wall is attractive in appearance and vivid in lines.

Referring to fig. 2 in combination with fig. 4, a respiratory curtain wall unit 2 is installed between a glass unit 16 and an adjacent other glass unit 16. The respiratory curtain wall unit 2 comprises a side frame 21, a side glass unit 22 fixedly arranged on one side of the side frame 21 close to the main structure of the building, and a porous aluminum plate 23 fixedly arranged in the side frame 21 and far away from the main structure of the building. An air exchange channel is formed between the side glass unit 22 close to one side of the building main body structure and the porous aluminum plate 23 far away from the building main body structure, so that the heat preservation and heat insulation functions of the curtain wall are realized. The second fireproof layer 5 is fixedly installed in the side frame 21, and the second fireproof layer 5 comprises a fireproof iron plate fixedly connected to the inner side of the side frame 21 and fireproof rock wool filled between the fireproof iron plate and the inner side of the side frame 21. The second fireproof layer 5 can improve the fireproof performance of the curtain wall and enhance the heat insulation performance of the curtain wall. The side glass unit 22 is fixedly installed in the side frame 21 provided with the second fireproof layer 5, and a side-opening window 24 is also installed on one side, close to the main building structure, of the side frame 21 provided with the second fireproof layer 5. Casement window 24 employs a structure including a window frame 241 fixedly installed in side frame 21, a window sash 242 rotatably installed in window frame 241, a latch assembly 243 for locking window sash 242 to window frame 241, and a handle 244 installed at a side of window sash 242 remote from perforated aluminum sheet 23. In the embodiment of the application, window sash 242 is rectangular, and window sash 242 is hinged with one side in window frame 241 through a hinge, so that window sash 242 can be opened into the main structure of the building. The latch assembly 243 is conventional and will not be described in detail herein. The side-hung window 24 increases the natural ventilation performance of the curtain wall, reduces the influence of typhoons in coastal cities on the safety performance of the curtain wall, and ensures that the curtain wall of the public building is safer. A porous aluminum plate 23 is also fixedly installed in the side frame 21 provided with the second flame retardant layer 5. In the embodiment of the application, a casement window 24 is arranged above one side, close to a main building structure, of a side frame 21 provided with a second fireproof layer 5, a side glass unit 22 is fixedly arranged below one side, close to the main building structure, of the side frame 21, and the casement window 24 and the side glass unit 22 form an inner layer of the respiratory curtain wall unit 2; the outer layer of the respiratory curtain wall unit 2 is a porous aluminum plate 23 which is fixedly arranged in the side frame 21 and far away from the main structure of the building. The porous aluminum plate 23 is provided with a plurality of through holes for ventilation.

Referring to fig. 2, a decorative strip 3 is fixedly installed at the junction of the unit plate 1 and the respiratory curtain wall unit 2. The decorative strip 3 can cover the joint between the unit plate 1 and the respiratory curtain wall unit 2, so that the appearance of the building is more attractive.

Referring to fig. 2, a third fireproof layer 6 is fixedly installed between each unit block 1, each breathing curtain wall unit 2 and the main structure of the building. The third fireproof layer 6 comprises a double-layer fireproof iron plate fixedly connected with each unit plate 1, each breathing curtain wall unit 2 and the main structure of the building and fireproof rock wool filled in the double-layer fireproof steel plate. In the embodiment of the application, the thickness of the fireproof rock wool is fifty millimeters. The third fireproof layer 6 can improve the fireproof performance of the building and enhance the heat preservation performance of the curtain wall.

The implementation principle of the breathing type torsion fold line type unit curtain wall provided by the embodiment of the application is as follows: referring to fig. 1, the curtain wall of the present application is installed on a main structure of a building, and when there is wind, since the glass unit 16 is deflected by a certain angle, even if the wind is not blown to the front of the window, the glass unit 16 can deflect a part of the wind by a certain angle, and thus enters the building from the adjacent respiratory curtain wall unit 2, thereby improving the ventilation function of the curtain wall. The unit plates 1 of each layer of the curtain wall are in a zigzag torsion shape on the same plane, each layer of plate deflects 1-3 degrees from the adjacent layers to form a building elevation effect of gradually deflecting upwards and downwards from the middle layer, and the zigzag torsion shape improves the sun-shading performance of the curtain wall and reduces the energy consumption of a building. The side of the breathing type curtain wall unit 2 far away from the building main structure is the porous aluminum plate 23, and the side close to the building main structure is the side glass unit 22, and an air exchange channel is formed between the side glass unit 22 and the porous aluminum plate 23, so that the heat preservation and insulation functions of the curtain wall are realized, the side-hung window 24 increases the natural ventilation performance of the curtain wall, the influence of coastal city typhoons on the safety performance of the curtain wall is reduced, and the curtain wall of a public building is safer.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (9)

1. The utility model provides a formula unitary curtain of broken line formula is turned over in breathing, its characterized in that: the building construction equipment comprises a plurality of unit plates (1) which are sequentially connected, wherein the unit plates (1) comprise embedded parts (11) connected with a building main structure, upright post connecting pieces (12) arranged on the embedded parts (11), upright posts (13) arranged on the upright post connecting pieces (12), cross beams (14) arranged between the upright posts (13), glass unit frames (15) arranged between the upright posts (13) and the cross beams (14) and glass units (16) arranged in the glass unit frames (15); the other glass unit (16) adjacent to one glass unit (16) deflects in a direction away from the plane in which the one glass unit (16) is located, and a respiratory curtain wall unit (2) is arranged between the one glass unit (16) and the other adjacent glass unit (16).

2. The breathing torsion fold type unitized curtain wall of claim 1, wherein: the plurality of glass units (16) are deflected one by one from left to right in a horizontal direction and the plurality of glass units (16) are deflected one by one from bottom to top in a vertical direction.

3. The breathing torsion fold type unitized curtain wall of claim 2, wherein: wherein the glass units (16) of one unit plate (1) form an included angle of 1-3 degrees with the glass units (16) of the other adjacent unit plate (1).

4. The breathing torsion fold type unitized curtain wall of claim 1, wherein: the respiratory curtain wall unit (2) comprises a side frame (21), a side glass unit (22) arranged on one side, close to a building main body structure, of the side frame (21), and a porous aluminum plate (23) arranged in the side frame (21) and far away from the building main body structure.

5. The breathing torsion fold type unitized curtain wall of claim 4, wherein: and a side frame (21) is also provided with a flat-open window (24) at one side close to the main structure of the building.

6. The breathing torsion fold type unitized curtain wall of claim 5, wherein: the casement window (24) comprises a window frame (241) arranged in a side frame (21), a window sash (242) rotatably arranged in the window frame (241), a lock catch assembly (243) for locking the window sash (242) to the window frame (241), and a handle (244) arranged on one side of the window sash (242) far away from the porous aluminum plate (23).

7. The breathing torsion fold type unitized curtain wall of claim 1, wherein: and a decorative strip (3) is arranged at the joint of the unit plate (1) and the respiratory curtain wall unit (2).

8. The breathing torsion fold type unitized curtain wall of claim 1, wherein: the unit plate (1) is provided with a first fireproof layer (4), and the respiratory curtain wall unit (2) is provided with a second fireproof layer (5).

9. The breathing torsion fold type unitized curtain wall of claim 1, wherein: a third fireproof layer (6) is arranged among the unit plates (1), the breathing curtain wall units (2) and the main building structure.