CN209942560U

CN209942560U - Energy-saving glass curtain wall

Info

Publication number: CN209942560U
Application number: CN201920161641.3U
Authority: CN
Inventors: 龚丽; 林瑶; 张朋
Original assignee: Shenzhen Is Still Building Decoration Design Engineering Co Ltd
Current assignee: Shenzhen Is Still Building Decoration Design Engineering Co Ltd
Priority date: 2019-11-12
Filing date: 2019-11-12
Publication date: 2020-01-14
Anticipated expiration: 2029-11-12

Abstract

The utility model relates to an energy-saving glass curtain wall, which comprises an outer curtain wall and an inner curtain wall, wherein the outer curtain wall comprises a keel frame and an air exhaust window sash arranged in the keel frame, the bottom of the outer curtain wall is provided with an air inlet, the upper part of the outer curtain wall is provided with an air outlet, and the bottom of the air exhaust window sash is rotatably assembled at the bottom of the inner side wall of the air outlet; the inner curtain wall comprises a window frame arranged on a wall body, and a middle suspension window sash is arranged in the window frame; the middle parts of two sides of the middle suspension window sash are rotatably assembled on the window frame, the bottom of one surface of the middle suspension window sash, which is far away from the outer curtain wall, is provided with a handle, and the middle suspension window sash is opened inwards from the lower end to the outer upper end; the middle part of the middle suspension window sash is provided with a first connecting rod, and the length direction of the first connecting rod is vertical to the middle suspension window sash; the end of the first connecting rod, which is far away from the middle-hung window sash, is rotatably connected with the second connecting rod, and the end of the second connecting rod, which is far away from the first connecting rod, is rotatably connected to the upper part of the exhaust window sash, which faces one side of the inner curtain wall, so that the problem that the rain shielding device is inconvenient to open and close is solved, and the rain shielding device has the advantage of being convenient for ventilation or rain.

Description

Energy-saving glass curtain wall

Technical Field

The utility model belongs to the technical field of the technique of curtain design and specifically relates to an energy-saving glass curtain wall is related to.

Background

The glass curtain wall is a building external protective structure or a decorative structure which has a certain displacement capacity relative to the main structure by a supporting structure system and does not bear the action of the main structure. The wall body has two types of single-layer glass and double-layer glass. The glass curtain wall is a beautiful and novel building wall decoration method and is a remarkable characteristic of modern high-rise building times.

At present, curtain walls are mostly arranged into double-layer curtain walls to achieve the effects of energy conservation and emission reduction, and a relatively closed space is formed between the inner curtain wall and the outer curtain wall. The lower part of the outer curtain wall is provided with an air inlet, the upper part of the outer curtain wall is provided with an air outlet, the flowing state of air can be controlled between the outer curtain wall and the air outlet, and the inner curtain wall is generally provided with an inward opening window to achieve the ventilation effect. In summer, the temperature in the ventilation channel in the middle of the double-layer curtain wall is very high, the air outlets and the air inlets at the upper end and the lower end of the ventilation channel can be opened, airflow from bottom to top is generated in the ventilation pipeline due to a thermal chimney effect (the phenomenon that the air is forced to convect because the air rises or falls along a space with a vertical gradient), the airflow entering from the lower air inlet is ventilated in the double-layer curtain wall and is exhausted from the upper air outlet after heat exchange, and the airflow from bottom to top moves to take away the heat in the channel, reduce the temperature of the outer surface of the inner-layer curtain wall, reduce the refrigeration load of an air conditioner, save energy and reduce energy consumption; in winter, the temperature of the ventilation channel in the middle of the double-layer curtain wall rises due to the irradiation of sunlight, and a greenhouse effect (a heat preservation effect formed by lack of heat exchange between the closed space transmitting sunlight and the outside) is formed. Thus being beneficial to improving the surface temperature of the inner curtain wall and reducing the operation cost of the building due to winter heating.

When raining, the rainwater easily drifts from the air exit between the outer curtain wall in, even drifts into indoorly, causes indoor humidity, can keep off the rain through the device that simply installs the rain, however, the air exit setting of outer curtain wall is in the position higher relatively, and the staff can't be directly enough, need open and close the rain-proof device with the help of other instruments, so, opens and close the inconvenient that the rain-proof device is very.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an energy-saving glass curtain wall has solved and has opened and close the inconvenient problem of rain-proof device, has the advantage of being convenient for ventilate or keep off the rain, energy saving and emission reduction.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

an energy-saving glass curtain wall comprises an outer curtain wall and an inner curtain wall, wherein the outer curtain wall comprises a keel frame and an air exhaust window sash arranged in the keel frame, an air inlet is formed in the bottom of the outer curtain wall, an air outlet is formed in the upper portion of the outer curtain wall, and the bottom of the air exhaust window sash is rotatably assembled at the bottom of the inner side wall of the air outlet; the inner curtain wall comprises a window frame arranged on a wall body, and a middle suspension window sash is arranged in the window frame; the middle parts of two sides of the middle suspension window sash are rotatably assembled on the window frame, the bottom of one surface of the middle suspension window sash, which is far away from the outer layer curtain wall, is provided with a handle, and the middle suspension window sash is opened inwards from the lower end to the outer upper end; the middle part of the middle suspension window sash is provided with a first connecting rod, and the length direction of the first connecting rod is vertical to the middle suspension window sash; one end of the first connecting rod, which is far away from the middle suspension window sash, is rotatably connected with a second connecting rod, and one end of the second connecting rod, which is far away from the first connecting rod, is rotatably connected with the upper part of one surface of the air exhaust window sash, which faces the inner curtain wall; when the middle suspension window sash rotates to the central axis of the second connecting rod and is parallel to the air exhaust window sash, the middle suspension window sash and the air exhaust window sash are both in the maximum opening limit, and the rotation of the middle suspension window sash is stopped; when the middle-hung window sash is rotated, the first connecting rod rotates towards the outer curtain wall, the first connecting rod drives the second connecting rod to further drive the air exhaust window sash to rotate towards the outer curtain wall, and when the middle-hung window sash is closed, the air exhaust window sash rotates to close the air exhaust opening.

By adopting the technical scheme, when the middle-hung window sash is rotated, the first connecting rod drives the second connecting rod to enable the air exhaust window sash to rotate along with the middle-hung window sash, so that the air exhaust window sash can be opened when the middle-hung window sash is opened, the air exhaust window sash can be closed when the middle-hung window sash is closed, the bottom of the middle-hung window sash is arranged on the handle of the middle-hung window sash, the middle-hung window sash is convenient to open and close, and the air exhaust window sash is convenient to open and close.

Furthermore, the first connecting rods and the second connecting rods are respectively provided with two connecting rods, the two first connecting rods are respectively arranged in the middle of two sides of one side, facing the outer curtain wall, of the middle suspension window sash, and one ends of the two second connecting rods are respectively arranged on two sides of the upper portion of the air exhaust window sash.

By adopting the technical scheme, the air exhaust window sash is stressed evenly, and the air exhaust window sash is convenient to open and close.

Furthermore, a sealing element is arranged at the joint of the exhaust window sash and the inner side wall of the exhaust outlet.

The joint of the air exhaust port of the air exhaust window sash is in a sealed state, so that air exchange between the air exhaust window sash and external cold air and between the external cold air and the inner and outer curtain walls is reduced in winter, and the energy-saving and heat-insulating effects are realized.

Further, a first sealing plate is arranged on the upper half part of one surface, facing the outer curtain wall, of the window frame, and the first sealing plate is arranged towards the interior of the window frame in a protruding mode; a second sealing plate is arranged at the end part, facing the outer curtain wall, of the lower half part of the outer side wall of the middle suspension window sash, and a second sealing block is arranged in a protruding manner far away from the center of the middle suspension window sash; when the centre-hung window sash is in a closed state, the first sealing plate is mutually attached to the opposite side of the centre-hung window sash, the second sealing plate is mutually attached to the opposite side of the window frame, and the upper surface of the second sealing plate is attached to the lower surface of the first sealing plate.

By adopting the technical scheme, when the middle suspension window sash needs to be closed for indoor heating in winter or refrigeration in summer, air between the inner curtain wall and the outer curtain wall is reduced to enter the room, so that the energy consumption of indoor heating or refrigeration is reduced, and the energy-saving window has the advantage of energy conservation.

Furthermore, a third sealing plate is arranged on the lower half part of one surface, away from the outer curtain wall, of the window frame, and the third sealing plate is arranged towards the interior of the window frame in a protruding mode; a fourth sealing plate is arranged at the end part of the upper half part of the middle suspension window sash far away from the outer layer curtain wall, and a fourth sealing block is arranged in a protruding way far away from the center of the middle suspension window sash; when the centre-hung window sash is in a closed state, the opposite faces of the centre-hung window sash in the third sealing plate are mutually attached, the opposite faces of the fourth sealing plate and the window frame are mutually attached, and the upper surface of the fourth sealing plate and the lower surface of the third sealing plate are attached.

By adopting the technical scheme, when the middle suspension window sash needs to be closed for indoor heating in winter or refrigeration in summer, the escape of indoor heating or cold air to the outside is reduced, and further the energy consumption of indoor heating or refrigeration is reduced, and the energy-saving window sash has the advantage of energy conservation.

Furthermore, sealing strips are arranged on the surfaces, close to each other, of the first sealing plate and the third sealing plate and the surfaces, close to each other, of the second sealing plate and the fourth sealing plate.

By adopting the technical scheme, the middle-hung window sash and the window frame have good sealing performance, heat exchange between the indoor space and the outdoor space is reduced, and energy conservation and emission reduction are further realized.

Further, the section of the sealing strip perpendicular to the length direction is in an M shape.

By adopting the technical scheme, the M sealing strip is durable and good in sealing property, and good sealing property is further ensured.

Further, the sealing strip is provided with a reinforcing rib, the cross section of the reinforcing rib is semicircular, and the reinforcing rib and the sealing strip are integrally formed.

By adopting the technical scheme, the sealing strip is further durable, and the sealing performance is better.

Furthermore, the middle suspension window sash and the air exhaust window sash are both aluminum alloy window sashes, and each aluminum alloy window comprises a window frame and glass embedded in the window frame; and a sealant is arranged between the glass and the fan frame.

By adopting the technical scheme, the joint of the glass fan frame keeps good tightness, the heat exchange from the joint of the glass and the fan frame is reduced, and the glass fan frame has the advantage of energy conservation.

Furthermore, a ventilation device is arranged on the keel frame and is right opposite to the air inlet.

By adopting the technical scheme, the ventilation device is started, the air enters from the air inlet at a higher speed, and quick ventilation is realized.

To sum up, the utility model discloses a beneficial technological effect does:

when the middle-suspension window sash rotates, the first connecting rod drives the second connecting rod to enable the air exhaust window sash to rotate along with the middle-suspension window sash, the air exhaust window sash can be opened when the middle-suspension window sash is opened, the air exhaust window sash can be closed when the middle-suspension window sash is closed, the bottom of the middle-suspension window sash is arranged on a handle of the middle-suspension window sash, the middle-suspension window sash can be opened and closed conveniently, and then the air exhaust window sash can be opened and closed conveniently.

And secondly, when the middle suspension window sash needs to be closed for indoor heating in winter or cooling in summer, the exchange of indoor and outdoor heat is reduced, and further, the energy consumption of indoor heating or cooling is reduced, and the energy-saving window has the advantage of energy conservation.

Drawings

FIG. 1 is a schematic structural diagram of the present embodiment in a closed state;

FIG. 2 is a schematic structural diagram of the present embodiment in a maximum open state;

FIG. 3 is an enlarged schematic view at A in FIG. 2;

FIG. 4 is an enlarged schematic view at B in FIG. 2;

FIG. 5 is an enlarged schematic view at C in FIG. 2;

FIG. 6 is an enlarged schematic view at D of FIG. 4;

fig. 7 is a schematic structural view of the aluminum alloy window sash in the present embodiment.

Reference numerals: 1. an outer curtain wall; 11. a keel frame; 12. an air exhaust window sash; 13. an air outlet; 14. an air inlet; 15. a blind window; 2. an inner curtain wall; 21. a window frame; 211. a first sealing plate; 212. a third sealing plate; 22. a middle suspension window sash; 221. a handle; 222. a second sealing plate; 223. a fourth seal plate; 23. fixing the window; 3. a seal member; 4. a sealing strip; 41. reinforcing ribs, 5, aluminum alloy window sashes; 51. a fan frame; 52. glass; 53. sealing glue; 6. a first link; 7. a second link.

Detailed Description

The present invention will be described in further detail with reference to fig. 1 to 7.

An energy-saving glass curtain wall is shown in figure 2 and comprises an outer layer curtain wall 1 and an inner layer curtain wall 2; the outer curtain wall 1 comprises a keel frame 11 and an exhaust window sash 12, an air inlet 14 is formed in the bottom of the outer curtain wall 1, a ventilation device is arranged on the keel frame 11 and comprises a fan (not shown) arranged in the keel frame 11 and shutters 15 arranged on two inner side walls of an air outlet 13, the ventilation device faces the air inlet 14, the ventilation device is started, the fan accelerates air entering from the air inlet 14, and quick air exchange is achieved; an air outlet 13 is arranged at the upper part of the outer curtain wall 1, an air exhaust window sash 12 is arranged in the keel frame 11, and the bottom of the air exhaust window sash 12 is rotatably assembled at the bottom of the inner side wall of the air outlet 13; the joint of the inner side walls of the air exhaust window sash 12 and the air exhaust port 13 is provided with a sealing element 3 (see figure 5), so that the joint of the air exhaust window sash 12 and the air exhaust port 13 is in a sealing state, and in winter, air exchange between the air exhaust window sash 12 and external cold air and between two layers of curtain walls is reduced, thus reducing the energy consumption of indoor heating and realizing the effects of energy conservation and heat preservation.

The inner curtain wall 2 comprises a window frame 21 arranged on a wall body, a middle suspension window sash 22 arranged in the window frame 21 and a fixed window 23 opposite to the air inlet 14; the middle parts of the two sides of the middle suspension window sash 22 are rotatably assembled on the window frame 21, the bottom of one surface, away from the outer curtain wall 1, of the middle suspension window sash 22 is provided with a handle 221 in a penetrating mode, one end, penetrating out of the handle 221, of the middle suspension window sash 22 is welded with a clamping block (not shown in the figure), one surface, opposite to the clamping block, of the middle suspension window sash 22 is provided with a through hole (not shown in the figure), one surface, opposite to the handle 221, of the window frame 21 is provided with a groove (not shown in the figure), the handle 221 is rotated to drive the clamping block to.

A first sealing plate 211 (see fig. 1) is welded to the upper half portion of one surface of the window frame 21 facing the outer curtain wall 1, and the first sealing plate 211 is arranged to protrude toward the inside of the window frame 21; a second sealing plate 222 (see fig. 3) is welded at the end part of the lower half part of the outer side wall of the middle suspension window sash 22 facing the outer curtain wall 1, and the second sealing plate 222 is arranged in a protruding manner away from the center of the middle suspension window sash 22; when the middle suspension window sash 22 is in a closed state, the first sealing plate 211 is attached to one surface of the middle suspension window sash 22 opposite to the first sealing plate 211, the second sealing plate 222 is attached to one surface of the window frame 21 opposite to the second sealing plate 222, and the upper surface of the second sealing plate 222 is attached to the lower surface of the first sealing plate 211; when the middle suspension window sash 22 needs to be closed for indoor heating in winter or refrigeration in summer, air between the inner curtain wall and the outer curtain wall 1 is reduced from entering the room, and therefore energy consumption of indoor heating or refrigeration is reduced, and the energy-saving window has the advantage of energy conservation.

The lower half part of one side of the window frame 21, which is far away from the outer curtain wall 1, is welded with a third sealing plate 212 (see fig. 4), and the third sealing plate 212 is arranged towards the interior of the window frame 21 in a protruding manner; a fourth sealing plate 223 is welded at the end part of the upper half part of the middle suspension window sash 22 far away from the outer curtain wall 1, and the fourth sealing plate 223 is arranged in a protruding mode far away from the center of the middle suspension window sash 22; when the middle suspension window sash 22 is in a closed state, the opposite surfaces of the middle suspension window sash 22 in the third sealing plate 212 are attached to each other, the opposite surfaces of the fourth sealing plate 223 and the window frame 21 are attached to each other, and the upper surface of the fourth sealing plate 223 is attached to the lower surface of the third sealing plate 212.

With reference to fig. 2, 4 and 6, the surfaces of the first sealing plate 211 and the third sealing plate 212, which are close to each other, and the surfaces of the second sealing plate 222 and the fourth sealing plate 223, which are close to each other, are provided with the sealing strips 4, the cross section of the sealing strips 4 perpendicular to the length direction is "M" shaped, the sealing strips 4 are provided with the reinforcing ribs 41, the cross section of the reinforcing ribs 41 is semicircular, and the reinforcing ribs 41 and the sealing strips 4 are integrally formed; the middle suspension window sash 22 and the window frame 21 are enabled to have good sealing performance, heat exchange between the interior and the exterior is reduced, energy conservation and emission reduction are further achieved, the M-shaped sealing strip 4 is durable and good in sealing performance, good sealing performance is further guaranteed, and the sealing strip 4 is durable and better in sealing performance due to the arrangement of the reinforcing ribs 41.

Referring to fig. 2 and 7, the center-hung window sash 22 and the air-exhausting window sash 12 are both aluminum alloy window sashes 5, and each aluminum alloy window sash 5 includes a sash frame 51 and glass 52 embedded in the sash frame 51; a sealant 53 is embedded between the glass 52 and the fan frame 51, and the sealant 53 is a hot-melt sealant 53; the sealing structure has the advantages of keeping good sealing performance of the joint of the fan frame 51 of the glass 52, reducing heat exchange from the joint of the glass 52 and the fan frame 51 and saving energy.

As shown in fig. 1 and 2, the middle suspension window sash 22 is opened from the lower end to the outer upper end; two first connecting rods 6 are arranged in the middle of the middle suspension window sash 22, and the two first connecting rods 6 are fixedly arranged in the middle of two sides of one side, facing the outer curtain wall 1, of the middle suspension window sash 22 respectively through welding; the length direction of the first connecting rod 6 is vertical to the middle suspension window sash 22; one end of each first connecting rod 6, which is far away from the middle suspension window sash 22, is rotatably connected with a second connecting rod 7 through a pin shaft, and one ends of the two second connecting rods 7, which are far away from the first connecting rods 6, are rotatably connected to the upper part of one surface, facing the inner curtain wall 2, of the exhaust window sash 12; when the middle suspension window sash 22 rotates to the central axis of the second connecting rod 7 and is parallel to the exhaust window sash 12, the middle suspension window sash 22 and the exhaust window sash 12 are both in the maximum opening limit, and the rotation of the middle suspension window sash 22 is stopped; when the middle suspension window sash 22 is rotated to enable the first connecting rod 6 to rotate towards the outer curtain wall 1 until the middle suspension window sash 22 is closed, the exhaust window sash 12 rotates to close the exhaust port 13; two first connecting rods 6 and two second connecting rods 7 are arranged, so that the stress of the exhaust window sash 12 is balanced, and the exhaust window sash 12 is convenient to open and close.

The principle implemented by the embodiment is as follows: when ventilation and air exchange are needed indoors and outdoors, when the middle suspension window sash 22 is rotated, the lower half part of the middle suspension window sash 22 moves towards the outer curtain wall 1, the middle suspension window sash 22 drives the first connecting rod 6 to move away from the outer curtain wall 1, the first connecting rod 6 drives the second connecting rod 7 to further drive the air exhaust window sash 12 to rotate away from the outer curtain wall 1, and then the air exhaust window sash 12 is opened; opening the ventilation device to enable air to rapidly enter between the inner curtain wall 1 and the outer curtain wall 1 from the air inlet 14, enabling the air to move upwards due to a thermal chimney effect, changing the flow direction of the air at the lower half part of the middle suspension window sash 22 to enable the air to enter the room, exchanging the air indoors, enabling the air to flow to the outside from the lower upper half part of the middle suspension window sash 22, and enabling the air to exit from the air outlet; when raining or needing to reduce indoor and outdoor air exchange, the rotating middle suspension window sash 22 drives the first connecting rod 6 to rotate towards the outer curtain wall 1, the first connecting rod 6 drives the second connecting rod 7 to enable the air exhaust window sash 12 to rotate along with the middle suspension window sash 22, the air exhaust window sash 12 can be closed when the middle suspension window sash 22 is closed, and the handle 221 of the middle suspension window sash 22 is provided with the bottom of the middle suspension window sash 22, so that the middle suspension window sash 22 can be opened and closed conveniently, and the air exhaust window sash 12 can be opened and closed conveniently.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims

1. The utility model provides an energy-saving glass curtain wall, includes outer curtain wall (1) and inlayer curtain wall (2), its characterized in that: the outer curtain wall (1) comprises a keel frame (11) and an air exhaust window sash (12) arranged in the keel frame (11), an air inlet (14) is formed in the bottom of the outer curtain wall (1), an air outlet (13) is formed in the upper portion of the outer curtain wall (1), and the bottom of the air exhaust window sash (12) is rotatably assembled at the bottom of the inner side wall of the air outlet (13); the inner curtain wall (2) comprises a window frame (21) arranged on a wall body, and a middle suspension window sash (22) is arranged in the window frame (21); the middle parts of two sides of the middle suspension window sash (22) are rotatably assembled on the window frame (21), the bottom of one surface, away from the outer layer curtain wall (1), of the middle suspension window sash (22) is provided with a handle (221), and the middle suspension window sash (22) is opened inwards from the lower end to the outer upper end; a first connecting rod (6) is arranged in the middle of the middle suspension window sash (22), and the length direction of the first connecting rod (6) is perpendicular to the middle suspension window sash (22); one end of the first connecting rod (6) far away from the middle suspension window sash (22) is rotatably connected with a second connecting rod (7), and one end of the second connecting rod (7) far away from the first connecting rod (6) is rotatably connected to the upper part of one surface of the exhaust window sash (12) facing the inner curtain wall (2); when the middle suspension window sash (22) rotates to the central axis of the second connecting rod (7) and is parallel to the air exhaust window sash (12), the middle suspension window sash (22) and the air exhaust window sash (12) are both in the maximum opening limit, and the rotation of the middle suspension window sash (22) is stopped; when the middle suspension window sash (22) is rotated to enable the first connecting rod (6) to rotate towards the outer curtain wall (1), the first connecting rod (6) drives the second connecting rod (7) to further drive the exhaust window sash (12) to rotate towards the outer curtain wall (1), and when the middle suspension window sash (22) is closed, the exhaust window sash (12) rotates to close the air outlet (13).

2. The energy-saving glass curtain wall of claim 1, wherein: the first connecting rods (6) and the second connecting rods (7) are respectively provided with two, the first connecting rods (6) are respectively arranged in the middle of two sides of one surface of the middle suspension window sash (22) facing the outer curtain wall (1), and one ends of the second connecting rods (7) are respectively arranged on two sides of the upper part of the air exhaust window sash (12).

3. The energy-saving glass curtain wall of claim 1, wherein: and a sealing element (3) is arranged at the joint of the exhaust window sash (12) and the inner side wall of the exhaust port (13).

4. The energy-saving glass curtain wall of claim 1, wherein: the upper half part of one surface of the window frame (21) facing the outer curtain wall (1) is provided with a first sealing plate (211), and the first sealing plate (211) is arranged towards the interior of the window frame (21) in a protruding mode; a second sealing plate (222) is arranged at the end part of the lower half part of the outer side wall of the middle suspension window sash (22) facing the outer curtain wall (1), and the second sealing block is arranged in a protruding way away from the center of the middle suspension window sash (22); when the center-hung window sash (22) is in a closed state, the opposite surfaces of the first sealing plate (211) and the center-hung window sash (22) are attached to each other, the opposite surfaces of the second sealing plate (222) and the window frame (21) are attached to each other, and the upper surface of the second sealing plate (222) is attached to the lower surface of the first sealing plate (211).

5. The energy-saving glass curtain wall as claimed in claim 4, wherein: the lower half part of one surface, away from the outer curtain wall (1), of the window frame (21) is provided with a third sealing plate (212), and the third sealing plate (212) is arranged towards the interior of the window frame (21) in a protruding mode; a fourth sealing plate (223) is arranged at the end part of the upper half part of the middle suspension window sash (22) far away from the outer layer curtain wall (1), and the fourth sealing plate is arranged in a protruding manner far away from the center of the middle suspension window sash (22); when the middle suspension window sash (22) is in a closed state, the opposite surfaces of the middle suspension window sash (22) of the third sealing plate (212) are attached to each other, the opposite surfaces of the fourth sealing plate (223) and the window frame (21) are attached to each other, and the upper surface of the fourth sealing plate (223) is attached to the lower surface of the third sealing plate (212).

6. The energy-saving glass curtain wall as claimed in claim 5, wherein: and sealing strips (4) are arranged on the surfaces, close to each other, of the first sealing plate (211) and the third sealing plate (212) and the surfaces, close to each other, of the second sealing plate (222) and the fourth sealing plate (223).

7. The energy-saving glass curtain wall of claim 6, wherein: the section of the sealing strip (4) perpendicular to the length direction is M-shaped.

8. The energy-saving glass curtain wall as claimed in claim 7, wherein: the sealing strip (4) is provided with a reinforcing rib (41), the cross section of the reinforcing rib (41) is semicircular, and the reinforcing rib (41) and the sealing strip (4) are integrally formed.

9. The energy-saving glass curtain wall of claim 1, wherein: the middle suspension window sash (22) and the exhaust window sash (12) are both aluminum alloy window sashes (5), and each aluminum alloy window comprises a window frame (51) and glass (52) embedded in the window frame (51); and a sealant (53) is arranged between the glass (52) and the fan frame (51).

10. The energy-saving glass curtain wall of claim 1, wherein: the keel frame (11) is provided with a ventilation device, and the ventilation device is right opposite to the air inlet (14).