CN113565241B - Double-layer vertical face curtain wall of super high-rise building - Google Patents

Abstract

The invention discloses a double-layer facade curtain wall of a super high-rise building, which comprises a double-layer curtain wall system and a solar energy conversion system arranged in the double-layer curtain wall system, wherein the double-layer curtain wall system comprises a frame, outer layer glass and inner layer glass which are respectively arranged on two sides of the frame along the opening direction, the solar energy conversion system comprises two square tubes which are respectively arranged on two opposite sides in the frame, a solar energy conversion plate which is rotatably connected to the two square tubes and an energy storage device which is arranged in the square tubes, the rotating axis of the solar energy conversion plate is vertical to the two square tubes, the square tubes are provided with angle adjusting devices for adjusting the rotating angles of the solar energy conversion plate, the energy storage device is in signal connection with the solar energy conversion plate, one side adjacent to the square tubes in the frame is provided with a lighting system, and the lighting system is in signal connection with the energy storage device. This application utilizes solar energy conversion panel conversion solar energy and stores, and the electric quantity of storing supplies the lighting system at night to use to can improve the utilization ratio to the energy.

Description

Double-layer vertical face curtain wall of super high-rise building

Technical Field

The invention relates to the technical field of building curtain walls, in particular to a double-layer vertical face curtain wall of a super high-rise building.

Background

The double-layer curtain wall is also called as a hot channel curtain wall, an air circulation curtain wall, a breathing type curtain wall and the like, and is composed of an outer layer curtain wall, a hot channel (air interlayer) and an inner layer curtain wall (or door and window), and the heat channel can form a building curtain wall with orderly flowing air.

In the related technology, a lighting system is arranged on the curtain wall of some super high-rise buildings, and the lighting system emits light at night, so that the buildings are more ornamental.

In view of the above-mentioned related technologies, the inventor believes that the curtain wall has a large surface area and uses a large number of lighting systems, which results in large power consumption and is not beneficial to energy conservation and environmental protection.

Disclosure of Invention

In order to help solving the great problem of light system power consumption on the curtain, this application provides a double-deck facade curtain of super high-rise building.

The application provides a double-deck facade curtain of super high-rise building adopts following technical scheme:

the utility model provides a double-deck facade curtain of super high-rise building, includes double-deck curtain wall system and establishes solar energy conversion system in the double-deck curtain wall system, double-deck curtain wall system includes the frame and establishes respectively outer glass and the inlayer glass of frame edge opening direction both sides, solar energy conversion system is including installing respectively two square tube, the rotation of relative both sides are connected in two in the frame solar energy conversion board on the square tube and installing energy memory in the square tube, the rotation axis perpendicular to two of solar energy conversion board the square tube, be equipped with the angle adjusting device who is used for adjusting solar energy conversion board turned angle on the square tube, energy memory and solar energy conversion board signal connection, lighting system is installed to the one side adjacent to the square tube in the frame, lighting system and energy memory signal connection.

Through adopting above-mentioned technical scheme, when sunshine is sufficient daytime, angle adjusting device control solar energy conversion board makes solar energy conversion board just to sunshine, and solar energy conversion board is the electric energy with solar energy conversion and stores in energy memory, and night, the electric quantity that energy memory stored can supply lighting system to use, and then can make full use of solar energy, reduces the energy consumption, improves the utilization ratio to the energy. This scheme sets up the solar energy change-over panel in double glazing curtain wall, and the solar energy can be converted to the solar energy change-over panel on the one hand, and on the other hand can reduce sunshine and shine indoor, plays the purpose of sunshade to reduce indoor energy loss, improve super high-rise building's energy-conserving effect.

Optionally, the frame includes the riser of two relative settings and the double-phase diaphragm that sets up relatively, two the riser constant head tank that supplies inlayer glass and outer glass's side to wear to establish is seted up to one side that the riser faces each other, two the diaphragm constant head tank that supplies inlayer glass and outer glass's side to wear to establish is seted up to one side border that the diaphragm faces each other, two the both ends and two of riser the both ends fixed connection of diaphragm, square tube parallel mount is in the inboard of riser, lighting system parallel mount is in the inboard of diaphragm.

By adopting the technical scheme, the structure of the frame is simplified, the positions of the accessories can be reasonably distributed, and the light system is ensured not to interfere with the solar energy conversion system.

It is optional, one side border that inlayer glass and outer glass each other faced is equipped with glass location limit, the center of riser is equipped with along the length direction of riser and erects the integrated circuit board and connect the limit, erect the integrated circuit board and connect the limit and extend to the opening one side of riser constant head tank, the side of riser is worn to locate in the riser constant head tank, erect the integrated circuit board and connect the limit and the cell wall of riser constant head tank and erect the lateral wall butt on integrated circuit board connection limit.

Through adopting above-mentioned technical scheme, utilize the mutual block on vertical board flange limit and glass location limit, can improve glass and install the stability on the frame, also be favorable to improving the leakproofness between riser and the glass simultaneously.

Optionally, the center of the vertical plate is provided with a through bridge cut-off hole along the length direction of the vertical plate.

By adopting the technical scheme, the heat transfer between the inner layer glass and the outer layer glass can be reduced, and the heat barrier property is improved.

Optionally, the double-deck curtain system is still including establishing air inlet framework and the air-out framework that deviates from one side each other at two diaphragms, the air inlet framework is established in the bottom of frame, the top at the frame is established to the air-out framework, one side that the air inlet framework deviates from inner glass is equipped with the air inlet tripe, one side that the air-out framework deviates from inner glass is equipped with the air-out tripe, the diaphragm ventilation hole that link up the lateral wall is seted up to the side of diaphragm, the inner chamber of frame and the inner chamber intercommunication of air inlet framework and air-out framework.

By adopting the technical scheme and adopting an external circulation type ventilation mode, air enters from the bottom of the frame and exits from the top of the frame, and heat between the inner layer glass and the outer layer glass can be taken away by utilizing the air, so that the temperature of a double-layer curtain wall system can be reduced, and the indoor thermal environment is improved; meanwhile, the air can also take away the surface heat of the solar conversion plate, so that the phenomenon that the surface temperature of the solar conversion plate is too high to reduce the solar conversion efficiency is avoided, and the normal work of the solar conversion plate is ensured.

Optionally, the solar energy conversion plate comprises a film mounting plate and a solar film cell piece attached to the side surface of the film mounting plate, and the two ends of the film mounting plate in the length direction are rotatably connected with the square tube.

By adopting the technical scheme, the thin film battery piece is supported by the thin film mounting plate, and the light focusing angle of the thin film battery piece can be changed by changing the rotating angle of the thin film mounting plate, so that the subsequent maintenance of the solar conversion plate is facilitated; meanwhile, the arrangement is also favorable for carrying out adaptive design on the solar energy conversion plate according to the space between the inner layer glass and the outer layer glass, and the reasonable layout of the solar energy conversion plate is improved.

Optionally, the film mounting plate is arranged to be an arc-shaped plate, the circle center of the film mounting plate is arranged towards the inner glass layer, and the solar thin film battery piece is attached to the arc-shaped surface of the film mounting plate.

Through adopting above-mentioned technical scheme, curved solar thin film cell piece compares in the same big occupation space that the film cell piece that contains in plate-type solar thin film cell piece is many, consequently can fully absorb the solar ray, and can not be subject to the restriction of the solar ray quantity that solar thin film cell piece was shone in the vertical direction to promoted the absorption capacity of solar thin film cell piece to solar ray in unit interval, and then promoted the productivity of solar thin film cell piece.

Optionally, angle adjusting device includes gear, rack and electronic extensible member, the one end at the film mounting panel is fixed to the gear, rack sliding connection is in the inner wall of square tube, rack and gear engagement, electronic extensible member installs in the square tube, electronic extensible member's flexible end and rack fixed connection.

By adopting the technical scheme, the angle adjustment of the thin-film cell panel is realized by utilizing the electric telescopic piece, so that the angle of the solar thin-film cell panel can be adjusted by utilizing the electric telescopic piece according to actual requirements in summer, the solar thin-film cell panel faces to sunlight, and electric energy is converted; in winter, when solar energy does not need to be converted, the side surfaces of the solar thin-film battery pieces are vertically upward or downward, and at the moment, light can irradiate the inner-layer glass through the gaps between the adjacent solar thin-film battery pieces, so that the indoor temperature is improved, and the indoor energy consumption is reduced.

Optionally, an arc-shaped guide plate is arranged at the air outlet end of the air inlet shutter in the air inlet frame body, and the circle center of the arc-shaped guide plate is arranged towards the outer glass.

Through adopting above-mentioned technical scheme, external natural wind can get into between inlayer glass and the outer glass under the guide of arc guide plate, and then can improve the flow velocity of air in the frame, plays the effect that reduces double-deck curtain surface temperature fast and reduce solar energy converter plate surface temperature.

Optionally, the solar energy conversion plate is provided with a plurality of blocks, and the inner cavity of the frame can be separated by the adjacent solar energy conversion plate.

Through adopting above-mentioned technical scheme, during winter, the side of solar energy conversion board is vertical down or vertical up, and at this moment, the inner chamber of frame is separated by the solar energy conversion board, and the inner chamber air of frame does not circulate, and the heat energy of sunlight irradiation can be stored between adjacent solar energy conversion board can, and the heat of storage is difficult for dispelling, has reduced indoor thermal giving off, has further strengthened the energy-conserving effect of building.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when sunlight is sufficient in the daytime, the angle adjusting device controls the solar energy conversion plate to enable the solar energy conversion plate to face the sunlight, the solar energy conversion plate converts solar energy into electric energy and stores the electric energy in the energy storage device, and the electric quantity stored by the energy storage device can be used by a lighting system at night, so that the solar energy can be fully utilized, the energy consumption is reduced, and the utilization rate of energy is improved;

2. the external circulation type ventilation mode is adopted, air enters from the bottom of the frame and exits from the top of the frame, and heat between the inner layer glass and the outer layer glass can be taken away by utilizing the air, so that the temperature of the double-layer curtain wall system can be reduced, and the indoor thermal environment can be improved; meanwhile, the air can also take away the surface heat of the solar energy conversion plate, so that the phenomenon that the surface temperature of the solar energy conversion plate is too high to reduce the solar energy conversion efficiency is avoided, and the normal work of the solar energy conversion plate is ensured;

3. the arc-shaped solar thin film cell piece is more than the number of thin film cell pieces contained in the plate-type solar thin film cell piece in the same large occupied space, so that the solar thin film cell piece can fully absorb solar rays and cannot be limited by the limitation of the number of the solar rays irradiated by the solar thin film cell piece in the vertical direction, and therefore, the absorption capacity of the solar thin film cell piece to the solar rays in unit time is improved, and further, the productivity of the solar thin film cell piece is improved.

Drawings

FIG. 1 is a side sectional view of the overall structure of an embodiment of the present application.

Fig. 2 is a top view of the embodiment of the present application showing primarily one of the risers.

FIG. 3 is a top view of an embodiment of the present application showing primarily the cross plate.

Fig. 4 is a top cross-sectional view of an embodiment of the present application showing primarily another riser.

Description of the reference numerals:

1. a double-layer curtain wall system; 11. a frame; 111. a vertical plate; 1111. a vertical plate positioning groove; 1112. clamping edges of the vertical plates; 1113. breaking the bridge hole; 1114. a first connection hole; 112. a transverse plate; 1121. positioning a groove on the transverse plate; 1122. a second connection hole; 1123. a transverse plate vent hole; 12. outer layer glass; 13. inner layer glass; 131. a glass positioning edge; 14. an air inlet frame body; 141. air inlet shutter; 142. an arc-shaped guide plate; 15. an air outlet frame body; 151. air outlet shutters; 16. sealing glue; 17. an insect-proof net; 2. a solar energy conversion system; 21. a square tube; 22. a solar energy conversion panel; 221. a film mounting plate; 222. a solar thin film cell; 23. an angle adjusting device; 231. a gear; 232. a rack; 233. an electric telescopic member; 234. connecting blocks; 24. an energy storage device; 3. a lighting system; 31. an LED lamp.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses double-deck facade curtain of super high-rise building.

Referring to fig. 1, the double-layer facade curtain wall comprises a double-layer curtain wall system 1, a solar energy conversion system 2 and a lighting system 3 which are arranged in the double-layer curtain wall system 1. The solar energy conversion system 2 is in signal connection with the lighting system 3, and in daytime, the solar energy conversion system 2 absorbs and converts sunlight and stores the sunlight into electric quantity which can be used for supplying power to the lighting system 3 at night, so that the utilization rate of energy can be improved.

Referring to fig. 1, the double curtain wall system 1 includes a frame 11, an outer layer glass 12 and an inner layer glass 13 respectively disposed on two sides of the frame 11 along an opening direction, an air inlet frame 14 connected to a bottom of the frame 11, and an air outlet frame 15 connected to a top of the frame 11. The frame 11 further includes two opposite vertical plates 111 and two opposite horizontal plates 112, and the vertical plates 111 and the horizontal plates 112 are made of bridge-cut aluminum profiles.

Referring to fig. 2, a vertical plate positioning groove 1111 is formed in a side edge of each of the two vertical plates 111 facing each other for clamping the sides of the outer layer glass 12 and the inner layer glass 13, a vertical plate clamping edge 1112 extending along the length direction of the vertical plate 111 is further integrally formed in the center of the vertical plate 111, and the vertical plate clamping edge 1112 protrudes out of an opening side of the vertical plate positioning groove 1111 along two sides of the vertical plate 111 in the width direction.

Simultaneously, outer glass 12 and the mutual one side border that faces of inlayer glass 13 are equipped with glass location limit 131, and glass location limit 131 protrusion is in outer glass 12 or the side of inlayer glass 13, and when riser constant head tank 1111 was worn to locate by the side of outer glass 12 or inlayer glass 13, the side of outer glass 12 or inlayer glass 13 and the cell wall butt of riser constant head tank 1111, glass location limit 131 and the cell wall of riser constant head tank 1111 and the inner wall butt of riser butt 1112.

At this time, the sealant 16 is filled between the side edge of the outer layer glass 12 or the inner layer glass 13 and the vertical positioning groove 1111, so as to improve the sealing performance. A through bridge-cut-off hole 1113 is formed in the center of the vertical plate 111 along the length direction of the vertical plate 111, the bridge-cut-off hole 1113 is located between the two vertical plate positioning grooves 1111, and a first connecting hole 1114 is formed in one side, close to the vertical plate clamping edge 1112, of the inner wall of the bridge-cut-off hole 1113; referring to fig. 2 and 3, the lateral plate 112 has a second connection hole 1122 formed in a side surface thereof, the first connection hole 1114 and the second connection hole 1122 are coaxially disposed, and the vertical plate 111 and the lateral plate 112 can be connected by screwing a screw into the first connection hole 1114 and the second connection hole 1122.

Referring to fig. 3, the transverse plate positioning grooves 1121 are further formed in the edges of the mutually facing sides of the two transverse plates 112, and the sides of the outer layer glass 12 and the inner layer glass 13 are clamped in the transverse plate positioning grooves 1121, so that the transverse plates 112 fix the outer layer glass 12 and the inner layer glass 13.

Referring to fig. 1 and 2, the solar energy conversion system 2 includes a square tube 21 respectively installed at the centers of two vertical plates 111, a plurality of solar energy conversion plates 22 rotatably connected to the square tube 21, and an angle adjusting device 23 for adjusting the solar energy conversion plates 22, the square tube 21 is fixed inside a vertical plate clamping edge 1112; the solar energy conversion plate 22 further comprises a film mounting plate 221 and a solar film cell 222 arranged on the side surface of the film mounting plate 221, the length direction of the film mounting plate 221 is perpendicular to the length direction of the square tube 21, two ends of the film mounting plate 221 are rotatably connected with the square tube 21, the film mounting plate 221 is an arc-shaped plate, the solar film cell 222 is attached to the outer arc-shaped surface of the film mounting plate 221, when sunlight needs to be absorbed, the circle center of the film mounting plate 221 faces towards the inner glass 13, and the outer arc-shaped surface of the film mounting plate 221 deviates from the inner glass 13 and inclines upwards.

Referring to fig. 2, the angle adjusting means 23 includes a gear 231 installed at one end of the film installation plate 221, a rack 232 slidably coupled to an inner wall of the square tube 21, and an electric expansion member 233 installed in the square tube 21, and the rack 232 is engaged with the plurality of gears 231. In this embodiment, electric telescopic part 233 chooses for use miniature cylinder, and one side of rack 232 is equipped with connecting block 234, and miniature cylinder's flexible end and connecting block 234 fixed connection utilize miniature cylinder can drive rack 232 to remove, then drive the rotation of film mounting panel 221 through the meshing of rack 232 gear 231, realize the regulation of solar energy film battery piece 222 angle.

Referring to fig. 2 and 4, an energy storage device 24 is further installed in the square tube 21, the energy storage device 24 is a storage battery, the storage battery is arranged in the other square tube 21 without the angle adjusting device 23, the storage battery is in signal connection with the solar thin film battery piece 222, and the storage battery is in signal connection with the electric expansion piece 233. The electric energy converted by the solar thin film cell 222 is stored in the storage battery, and the electric expansion member 233 is supplied with power from the storage battery.

Referring to fig. 1 and 3, lighting system 3 comprises a plurality of LED lamp 31 of setting at the inboard of diaphragm 112, and a plurality of LED lamp 31 are arranged along the length direction interval of diaphragm 112, and a plurality of LED lamp 31 and battery signal connection, the electric energy of battery daytime storage can supply the luminous usefulness of the LED lamp 31 at night, improves the utilization ratio to the energy.

Referring to fig. 1, the air inlet frame 14 and the air outlet frame 15 are set to be a U-shaped groove with an opening facing the transverse plate 112, one side of the air inlet frame 14 facing away from the inner glass 13 is provided with an air inlet louver 141, one side of the air outlet frame 15 facing away from the inner glass 13 is provided with an air outlet louver 151, a plurality of transverse plate vent holes 1123 penetrating through the side wall of the transverse plate 112 are formed in the side surface of the transverse plate 112 along the vertical direction, a plurality of transverse plate vent holes 1123 are arranged at intervals of the LED lamps 31, and the transverse plate vent holes 1123 communicate the inner cavity of the frame 11 with the inner cavity of the air inlet frame 14 and the inner cavity of the air outlet frame 15.

External natural wind accessible air inlet framework 14 gets into the inner chamber of frame 11 to outside through air-out framework 15 circulation to frame 11, at this in-process, the heat of frame 11 inner chamber can be taken away to the natural wind of circulation, and then can reduce the inside temperature of frame 11, when summer, can play the effect that reduces building surface temperature, and can reduce solar energy conversion system 2's operational environment temperature, guarantee solar energy conversion system 2's normal operating.

In addition, the arc-shaped guide plate 142 is installed at the inner included angle of the bottom of the air inlet frame 14 far away from the outer glass 12, the circle center of the arc-shaped guide plate 142 is close to the outer glass 12, and meanwhile, the insect-proof net 17 is installed at the air outlet end of the air inlet shutter 141 and the air inlet end of the air outlet shutter 151 so as to reduce insects entering the double-layer curtain wall.

The implementation principle of the double-layer vertical face curtain wall of the super high-rise building is as follows: when sufficient sunshine exists in the daytime, the angle adjusting device 23 controls the solar energy conversion plate 22 to enable the solar energy conversion plate 22 to be over against the sunshine, the solar energy conversion plate 22 converts solar energy into electric energy and stores the electric energy in the energy storage device 24, and at night, the electric quantity stored by the energy storage device 24 can be used by the lighting system 3, so that the solar energy can be fully utilized, the energy consumption is reduced, and the utilization rate of energy is improved.

Meanwhile, in winter, the angle adjusting device 23 can control the solar conversion plate 22, so that the arc-shaped surface of the solar conversion plate 22 faces vertically upwards or downwards, at this time, a gap through which sunlight can penetrate is formed between adjacent solar conversion plates 22, thereby realizing indoor lighting, and the inner cavity of the frame 11 can be divided into a plurality of closed cavities by the adjacent solar conversion plates 22, at this time, air in the frame 11 does not circulate or the circulation speed becomes slow, heat generated by solar energy can be stored in the frame 11, so that the dissipation of indoor heat is reduced, and the energy-saving effect of a building is improved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (5)

1. The utility model provides a double-deck facade curtain of super high-rise building, includes double-deck curtain system (1) and establishes solar energy conversion system (2) in double-deck curtain system (1), its characterized in that: the double-layer curtain wall system (1) comprises a frame (11), outer glass (12) and inner glass (13) which are respectively arranged on two sides of the frame (11) along an opening direction, the solar energy conversion system (2) comprises two square tubes (21) which are respectively arranged on two opposite sides in the frame (11), solar energy conversion plates (22) which are rotatably connected to the two square tubes (21) and energy storage devices (24) which are arranged in the square tubes (21), the rotation axes of the solar energy conversion plates (22) are perpendicular to the two square tubes (21), angle adjusting devices (23) which are used for adjusting the rotation angles of the solar energy conversion plates (22) are arranged on the square tubes (21), the energy storage devices (24) are in signal connection with the solar energy conversion plates (22), a lighting system (3) is arranged on one side, adjacent to the square tubes (21), in the frame (11), and the lighting system (3) is in signal connection with the energy storage devices (24); the frame (11) comprises two vertical plates (111) arranged oppositely and two transverse plates (112) arranged oppositely, wherein one side, facing each other, of each vertical plate (111) is provided with a vertical plate positioning groove (1111) for allowing the side edges of inner-layer glass (13) and outer-layer glass (12) to penetrate through, the edge of one side, facing each other, of each transverse plate (112) is provided with a transverse plate positioning groove (1121) for allowing the side edges of the inner-layer glass (13) and the outer-layer glass (12) to penetrate through, the two ends of each vertical plate (111) are fixedly connected with the two ends of each transverse plate (112), the square tube (21) is arranged on the inner sides of the vertical plates (111) in parallel, and the lighting system (3) is arranged on the inner sides of the transverse plates (112) in parallel; the double-layer curtain wall system (1) further comprises an air inlet frame body (14) and an air outlet frame body (15) which are arranged on one side, away from each other, of the two transverse plates (112), the air inlet frame body (14) is arranged at the bottom of the frame (11), the air outlet frame body (15) is arranged at the top of the frame (11), one side, away from the inner layer glass (13), of the air inlet frame body (14) is provided with an air inlet louver (141), one side, away from the inner layer glass (13), of the air outlet frame body (15) is provided with an air outlet louver (151), the side face of each transverse plate (112) is provided with a transverse plate ventilation hole (1123) penetrating through the side wall, and the inner cavity of the frame (11) is communicated with the inner cavity of the air inlet frame body (14) and the inner cavity of the air outlet frame body (15); the solar energy conversion plate (22) comprises a film mounting plate (221) and solar film battery pieces (222) attached to the side surface of the film mounting plate (221), and two ends of the film mounting plate (221) along the length direction are rotatably connected with the square tube (21); the thin film mounting plate (221) is an arc-shaped plate, the circle center of the thin film mounting plate (221) faces the inner layer glass (13), and the solar thin film battery piece (222) is attached to the arc-shaped surface of the thin film mounting plate (221); the solar energy conversion plates (22) are arranged in a plurality of blocks, and the inner cavity of the frame (11) can be separated by the adjacent solar energy conversion plates (22).

2. The double-layer facade curtain wall for super high-rise buildings according to claim 1 is characterized in that: inlayer glass (13) and outer glass (12) one side border that faces each other are equipped with glass location limit (131), the center of riser (111) is equipped with vertical integrated circuit board flange (1112) along the length direction of riser (111), vertical integrated circuit board flange (1112) extend to opening one side of riser constant head tank (1111), the side of riser (111) is worn to locate in riser constant head tank (1111), the vertical integrated circuit board flange (1112) and the cell wall of riser constant head tank (1111) and the lateral wall butt of vertical integrated circuit board flange (1112).

3. The double-layer vertical-face curtain wall of the super high-rise building as claimed in claim 2, wherein: and a through bridge-cut-off hole (1113) is formed in the center of the vertical plate (111) along the length direction of the vertical plate (111).

4. The double-layer vertical-face curtain wall of the super high-rise building as claimed in claim 1, wherein: angle adjusting device (23) include gear (231), rack (232) and electronic extensible member (233), the one end at film mounting panel (221) is fixed in gear (231), rack (232) sliding connection is in the inner wall of square tube (21), rack (232) and gear (231) meshing, electronic extensible member (233) are installed in square tube (21), the flexible end and rack (232) fixed connection of electronic extensible member (233).

5. The double-layer vertical-face curtain wall of the super high-rise building as claimed in claim 1, wherein: an arc-shaped guide plate (142) is arranged at the air outlet end of the air inlet shutter (141) in the air inlet frame body (14), and the circle center of the arc-shaped guide plate (142) is arranged towards the outer glass (12).

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