阅读说明：本技术 一种密封处带有防水保温补强结构的铝板幕墙 (Aluminum plate curtain wall with waterproof heat-preservation reinforcing structure at sealing position ) 是由 陈志洋 于 2020-11-25 设计创作，主要内容包括：本发明公开了一种密封处带有防水保温补强结构的铝板幕墙,包括幕墙板,其特征在于：所述幕墙板之间设置有柔性拉伸膜,所述柔性拉伸膜的内部设置有转向机构,所述柔性拉伸膜的内部设置有风力调节机构,所述幕墙板的内部设置有旋转调节机构,所述幕墙板的内部设置有开合机构,所述幕墙板的外部还设置有旋转助力机构,所述转向机构与柔性拉伸膜传动连接,所述风力调节机构与转向机构固定,所述旋转调节机构与幕墙板传动连接,所述开合机构与旋转调节机构固定,所述旋转助力机构包括火助力组件和水助力组件,本发明,具有集中处理城市灰尘,同时有效避免铝板幕墙所包裹的高楼外部温度过高,实现楼内外空气置换降温升温的特点。(The invention discloses an aluminum plate curtain wall with a waterproof heat-preservation reinforcing structure at a sealing part, which comprises a curtain wall plate and is characterized in that: the flexible stretching membrane is arranged between the curtain wall plates, a steering mechanism is arranged inside the flexible stretching membrane, a wind power adjusting mechanism is arranged inside the flexible stretching membrane, a rotary adjusting mechanism is arranged inside the curtain wall plates, an opening and closing mechanism is arranged inside the curtain wall plates, a rotary power assisting mechanism is further arranged outside the curtain wall plates, the steering mechanism is in transmission connection with the flexible stretching membrane, the wind power adjusting mechanism is fixed with the steering mechanism, the rotary adjusting mechanism is in transmission connection with the curtain wall plates, the opening and closing mechanism is fixed with the rotary adjusting mechanism, and the rotary power assisting mechanism comprises a fire power assisting assembly and a water power assisting assembly.)

1. The utility model provides a sealing department has aluminum curtain wall of waterproof heat preservation reinforcement structure, includes curtain wall board (100), its characterized in that: be provided with flexible tensile membrane (104) between curtain board (100), the inside of flexible tensile membrane (104) is provided with steering mechanism, the inside of flexible tensile membrane (104) is provided with wind-force adjustment mechanism, the inside of curtain board (100) is provided with rotary regulating mechanism, the inside of curtain board (100) is provided with the mechanism that opens and shuts, the outside of curtain board (100) still is provided with rotatory assist drive device.

2. The aluminum plate curtain wall with the waterproof heat-preservation reinforcing structure at the sealing part according to claim 1 is characterized in that: the curtain wall plate is characterized in that the steering mechanism is in transmission connection with the flexible stretching film (104), the wind power adjusting mechanism is fixed with the steering mechanism, the rotary adjusting mechanism is in transmission connection with the curtain wall plate (100), the opening and closing mechanism is fixed with the rotary adjusting mechanism, the rotary power assisting mechanism comprises a fire power assisting assembly and a water power assisting assembly, and the fire power assisting assembly and the water power assisting assembly are respectively fixed on the left side and the right side of the opening and closing mechanism.

3. The aluminum plate curtain wall with the waterproof heat-preservation reinforcing structure at the sealing part according to claim 2 is characterized in that: the steering mechanism comprises a first driving shaft (300), two ends of the first driving shaft (300) are connected to the inside of a flexible stretching film (104) through bearings, a first driving gear (301) is fixed to the outer side of the first driving shaft (300), a rotating disc (302) is fixed to the outer side of the first driving shaft (300), the first driving shaft (300) penetrates through the rotating disc (302), gear teeth are arranged inside the rotating disc (302), a second driving shaft (201) is arranged below the first driving shaft (300), the second driving shaft (201) penetrates through the rotating disc (302), a first driven gear (303) is fixed to the second driving shaft (201), a narrow slide way is formed in the outer side, located on the rotating disc (302), of the second driving shaft (201), and the top end of the rotating disc (302) is fixed to the flexible stretching film (104).

4. The aluminum plate curtain wall with the waterproof heat-preservation reinforcing structure at the sealing part according to claim 3 is characterized in that: the wind power adjusting mechanism comprises a main rotating cylinder (200), a rotating bearing is arranged on the outer side of the main rotating cylinder (200), the front end and the rear end of the main rotating cylinder (200) are fixed inside a flexible stretching film (104), a first rotating rod is arranged inside the main rotating cylinder (200), one end of the first rotating rod is fixed with a second driving shaft (201), three first arc-shaped fan blades are uniformly arranged on the outer side of the first rotating rod, a plurality of water permeable holes are uniformly formed in the arc-shaped fan blades, an air inlet pipe (2002) is sleeved on the top end of the main rotating cylinder (200), a water outlet pipe (2001) is fixed at the lower end of the main rotating cylinder (200), a filter plate is welded at the position where the main rotating cylinder (200) and the water outlet pipe (2001) are fixed, and through channels are formed in the left end and the right end of the main rotating cylinder (200);

a first auxiliary rotary drum (202) is arranged on the left side of the main rotary drum (200), a second rotary rod (204) is arranged inside the first auxiliary rotary drum (202), one end of the second rotary rod (204) is connected to the inner wall of the first auxiliary rotary drum (202) through a bearing, four second arc-shaped fan blades are uniformly arranged outside the second rotary rod (204), a through channel is arranged at the position where the right side of the first auxiliary rotary drum (202) is in contact with the main rotary drum (200), a first auxiliary air duct (206) is fixed on one side of the first auxiliary rotary drum (202), a first rotary shaft is arranged inside the first auxiliary air duct (206), one end of the first rotary shaft is fixed with the other end of the first rotary rod (204), the other end of the first rotary shaft is connected to the inner wall of the first auxiliary air duct (206) through a bearing, and first spiral fan blades are uniformly arranged outside the first rotary shaft, a first upper guide pipe (2062) is fixed at the upper end of the first auxiliary air duct (206), a first lower guide pipe (2061) is fixed at the lower end of the first auxiliary air duct (206), and the first auxiliary air duct (206) is fixed with the left side of the outer rotary bearing of the main rotary drum (200);

a second auxiliary rotating drum (203) is arranged on the right side of the main rotating drum (200), a third rotating rod (205) is arranged inside the second auxiliary rotating drum (203), one end of the third rotating rod (205) is connected to the inner wall of the second auxiliary rotating drum (203) through a bearing, two third arc-shaped fan blades are uniformly arranged on the outer side of the third rotating rod (205), a second auxiliary air drum (207) is fixed on one side of the second auxiliary rotating drum (203), a second rotating shaft is arranged inside the second auxiliary air drum (207), one end of the second rotating shaft and the other end of the third rotating rod (205) which is fixed with the other end of the second rotating shaft are connected to the inner wall of the second auxiliary rotating drum (203) through bearings, second spiral fan blades are uniformly arranged on the outer side of the second rotating shaft, and the second spiral fan blades have the same direction as the first spiral fan blades, a second upper guide pipe (2072) is fixed at the top end of the second auxiliary revolving drum (203), and a second lower guide pipe (2071) is fixed at the lower end of the second auxiliary revolving drum (203).

5. The aluminum plate curtain wall with the waterproof heat-preservation reinforcing structure at the sealing part according to claim 4 is characterized in that: the rotary adjusting mechanism comprises a valve rod (401), one end of the valve rod (401) is connected to the inside of the curtain wall plate (100) through a bearing, the outer side of the valve rod (401) is provided with a three-way ball valve (400), the valve rod (401) penetrates through the three-way ball valve (400), a rotating ball is arranged in the three-way ball valve (400), a first feeding pipe is arranged at the upper end of the three-way ball valve (400), the first feed pipe is sleeved with the water outlet pipe (2001), the left end of the three-way ball valve (400) is provided with a second feed pipe, the second feeding pipe is arranged on the left side below the main rotary cylinder (200) and attached to the first lower guide pipe (2061), the right end of the three-way ball valve (400) is provided with a third feeding pipe, the third feeding pipe is arranged on the right side of the lower portion of the main rotating cylinder (200) and attached to a second lower guide pipe (2071), and a discharging pipe is sleeved at the lower end of the three-way ball valve (400).

6. The aluminum plate curtain wall with the waterproof heat-preservation reinforcing structure at the sealing part according to claim 5 is characterized in that: the mechanism that opens and shuts includes connecting cylinder (504), the outside of connecting cylinder (504) is provided with the feed inlet, the feed inlet is fixed with the discharging pipe, the one end outside of connecting cylinder (504) evenly is provided with a plurality of square piece (505), and is a plurality of square slide has been seted up to the inboard of square piece (505), sliding connection has the slide bar in the slide, the outside of slide bar is fixed with triangle fixture block (506), one side of triangle fixture block (506) is provided with the gasbag, and is a plurality of one side sliding connection of square piece (505) has connection disc (507), the outside of connection disc (507) evenly is provided with arc slide (508), arc slide (508) and the upper end sliding connection of slide bar.

7. The aluminum plate curtain wall with the waterproof heat-preservation reinforcing structure at the sealing part according to claim 6 is characterized in that: fire helping hand subassembly includes first bearing dish (500), the one end of first bearing dish (500) is fixed with the other end of connecting cylinder (504), the other end of first bearing dish (500) evenly is fixed with three spiral leaf (501), be fixed with the A-frame on the inner wall of first bearing dish (500), the fixed second connecting rod of central authorities of A-frame, the outside of second connecting rod is provided with solid matter, three the other end of spiral leaf (501) is fixed with second bearing dish (502), the structure of second bearing dish (502) is the same with first bearing dish (500), one side central authorities that the second connecting rod was kept away from to the A-frame on second bearing dish (502) inner wall are fixed with the third connecting rod, the other end welding of third connecting rod has circular cone baffle (503).

8. The aluminum plate curtain wall with the waterproof heat-preservation reinforcing structure at the sealing part according to claim 7 is characterized in that: the water helping hand subassembly includes ponding dish (509), the inside of ponding dish (509) is connected with a plurality of triangle arc boards (510) through the bearing, and is a plurality of one side of triangle arc board (510) is fixed.

9. The aluminum plate curtain wall with the waterproof heat-preservation reinforcing structure at the sealing part according to claim 8 is characterized in that: the water power-assisted assembly is positioned above the fire power-assisted assembly.

10. The aluminum plate curtain wall with the waterproof heat-preservation reinforcing structure at the sealing part according to claim 9 is characterized in that: curtain board (100) are a plurality of groups, a plurality of groups the both sides of curtain board (100) all are provided with first gear (103), one side meshing of first gear (103) is connected with the second gear, the outside of second gear is connected with L type connecting plate (101) through the bearing, a plurality of groups the both sides of curtain board (100) are located L type connecting plate (101) and are fixed with head rod (102).

Technical Field

The invention relates to the technical field of aluminum plate curtain walls, in particular to an aluminum plate curtain wall with a waterproof heat-preservation reinforcing structure at a sealing part.

Background

The aluminum veneer curtain wall adopts high-quality high-strength aluminum alloy plates, the common thicknesses of the aluminum veneer curtain wall are 1.5 MM, 2.0 MM, 2.5 MM and 3.0MM, the model is 3003, and the state is H24. The structure of the corner connector mainly comprises a panel, reinforcing ribs and corner connectors. The corner brace can be directly bent and formed by a panel in a stamping mode, and can also be formed by riveting the corner brace on the small edge of the panel. The reinforcing ribs are connected with the electric welding screws (the screws are directly welded on the back of the panel) behind the panel, so that the reinforcing ribs and the electric welding screws form a firm whole, the strength and the rigidity of the aluminum veneer curtain wall are greatly enhanced, and the flatness and the wind and shock resistance in long-term use are ensured. If sound insulation and heat preservation are needed, high-efficiency sound insulation and heat preservation materials can be arranged on the inner side of the aluminum plate.

Aluminum plate curtain wall fixed mounting usually in urban high building, and the big city of high building standing usually can produce the heat island effect summer, lead to that the hot-air in the city can not volatilize, in order to guarantee that urban cooling adopts watering cooling treatment usually, subaerial water heat absorption becomes vapor and rises to sky steam layer upper strata, because steam layer upper strata temperature is low, the vapor volume reduces specific gravity and increases, steam descends, because the temperature is high below the steam layer, the in-process heat absorption of decline, rise again and meet cold, descend again, gaseous molecule reduces gradually like this repeatedly, concentrate at last at steam layer bottom, form low-temperature region at the bottom, vapor concentrates to the low-temperature region, this just forms the cloud. The cloud cluster grows gradually, the temperature difference between the upper cloud cluster and the lower cloud cluster inside the cloud is smaller and smaller, the lifting amplitude of water vapor molecules is larger and larger, the up-down convection inside the cloud is more and more intense, the rising water vapor below the cloud cluster rises in a straight direction, and the cooled volume of the water vapor molecules is reduced and smaller in the rising process and is in a funnel shape. The cold volume of the rising water vapor molecules is reduced continuously, the space is supplemented by the gas molecules under the cloud continuously to generate strong wind, and when the cold volume of the water vapor is reduced, the gas in the peripheral supplemented space is uneven to form tornadoes. The invention provides a solid allotrope, which can generate spontaneous combustion or generate natural phenomena through local friction under the condition of high temperature.

Therefore, the design is centralized and is handled the city dust, effectively avoids the high building outside temperature that aluminum curtain wall wrapped up too high simultaneously, realizes that the inside and outside air replacement of building cools down the aluminum curtain wall that a sealed department has waterproof heat preservation reinforcement structure that heaies up is very necessary.

Disclosure of Invention

The invention aims to provide an aluminum plate curtain wall with a waterproof heat-preservation reinforcing structure at a sealing part, so as to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a sealing department has aluminum curtain wall of waterproof heat preservation reinforcement structure, includes curtain wall board, its characterized in that: a flexible stretching film is arranged between the curtain wall plates, a steering mechanism is arranged inside the flexible stretching film, a wind power adjusting mechanism is arranged inside the flexible stretching film, a rotary adjusting mechanism is arranged inside the curtain wall plates, an opening and closing mechanism is arranged inside the curtain wall plates, and a rotary assisting mechanism is further arranged outside the curtain wall plates; the steering mechanism is used for judging whether the wind outside the curtain wall is tornado or not so as to change the running direction of the device, the wind power adjusting mechanism is used for circularly replacing the air in the high-rise building and distinguishing materials sucked into the device, the rotary adjusting mechanism is used for conducting different pipelines to realize different working states, the opening and closing mechanism is used for opening or closing according to needs, the temperature stability in the high-rise building is guaranteed while urban dust and impurities are solved, and the rotary assisting mechanism is used for assisting in generating tornados in different forms so as to solve the problems caused by the tornados in different forms.

According to the technical scheme, the steering mechanism is in transmission connection with the flexible stretching film, the wind power adjusting mechanism is fixed with the steering mechanism, the rotary adjusting mechanism is in transmission connection with the curtain wall board, the opening and closing mechanism is fixed with the rotary adjusting mechanism, the rotary power assisting mechanism comprises the fire power assisting assembly and the water power assisting assembly, and the fire power assisting assembly and the water power assisting assembly are respectively fixed on the left side and the right side of the opening and closing mechanism.

According to the technical scheme, the steering mechanism comprises a first driving shaft, two ends of the first driving shaft are connected to the inside of the flexible stretching film through bearings, a first driving gear is fixed to the outer side of the first driving shaft, a rotating disc is fixed to the outer side of the first driving shaft, the first driving shaft penetrates through the rotating disc, gear teeth are arranged inside the rotating disc, a second driving shaft is arranged below the first driving shaft, the second driving shaft penetrates through the rotating disc, a first driven gear is fixed to the second driving shaft, a narrow slide way is formed in the outer side, located on the second driving shaft, of the rotating disc, and the top end of the rotating disc is fixed with the flexible stretching film.

According to the technical scheme, the wind power adjusting mechanism comprises a main rotating cylinder, a rotating bearing is arranged on the outer side of the main rotating cylinder, the front end and the rear end of the main rotating cylinder are fixed inside a flexible stretching film, a first rotating rod is arranged inside the main rotating cylinder, one end of the first rotating rod is fixed with a second driving shaft, three first arc-shaped blades are uniformly arranged on the outer side of the first rotating rod, a plurality of water permeable holes are uniformly formed in the arc-shaped blades, an air inlet pipe is sleeved at the top end of the main rotating cylinder, a water outlet pipe is fixed at the lower end of the main rotating cylinder, a filter plate is welded at the position where the main rotating cylinder and the water outlet pipe are fixed, and a through channel is formed in each of the left end and the right;

a first auxiliary rotary drum is arranged on the left side of the main rotary drum, a second rotary rod is arranged in the first auxiliary rotary drum, one end of the second rotary rod is connected to the inner wall of the first auxiliary rotary drum through a bearing, four second arc-shaped fan blades are uniformly arranged on the outer side of the second rotary rod, a through channel is arranged at the position, in contact with the main rotary drum, of the right side of the first auxiliary rotary drum, a first auxiliary air duct is fixed on one side of the first auxiliary rotary drum, a first rotary shaft is arranged in the first auxiliary air duct, one end of the first rotary shaft is fixed with the other end of the first rotary rod, the other end of the first rotary shaft is connected to the inner wall of the first auxiliary air duct through a bearing, a first spiral fan blade is uniformly arranged on the outer side of the first rotary shaft, a first upper guide tube is fixed at the upper end of the first auxiliary air duct, and a first lower guide tube is fixed at the lower end of the first auxiliary air duct, the first auxiliary air duct is fixed with the left side of the rotary bearing at the outer side of the main rotary drum;

a second auxiliary rotating drum is arranged on the right side of the main rotating drum, a third rotating rod is arranged in the second auxiliary rotating drum, one end of the third rotating rod is connected on the inner wall of the second auxiliary rotating drum through a bearing, two third arc-shaped fan blades are uniformly arranged on the outer side of the third rotating rod, a second auxiliary air duct is fixed on one side of the second auxiliary rotary drum, a second rotating shaft is arranged in the second auxiliary air duct, one end of the second rotating shaft and the other end of the third rotating rod are fixed, the other end of the second rotating shaft is connected to the inner wall of the second auxiliary rotating drum through a bearing, the outer side of the second rotating shaft is uniformly provided with second spiral fan blades, the orientation of the second spiral fan blades is the same as that of the first spiral fan blades, and a second upper guide pipe is fixed at the top end of the second auxiliary rotating cylinder, and a second lower guide pipe is fixed at the lower end of the second auxiliary rotating cylinder.

According to the technical scheme, rotatory adjustment mechanism includes the head rod, the inside at the curtain board is passed through the bearing and is connected to the one end of head rod, the outside of head rod is provided with the tee bend ball valve, the head rod runs through the tee bend ball valve, the inside of tee bend ball valve is provided with rotatory ball, the upper end of tee bend ball valve is provided with first inlet pipe, first inlet pipe cup joints with the outlet pipe, the left end of tee bend ball valve is provided with the second inlet pipe, the second inlet pipe sets up in the below left side of main rotatory section of thick bamboo and laminates with first stand pipe down, the right-hand member of tee bend ball valve is provided with third inlet pipe, the third inlet pipe sets up in the below right side of main rotatory section of thick bamboo and the stand pipe laminating under the second, the discharging pipe has been cup jointed to the lower extreme of tee bend.

According to the technical scheme, the mechanism that opens and shuts includes the connecting cylinder, the outside of connecting cylinder is provided with the feed inlet, the feed inlet is fixed with the discharging pipe, the one end outside of connecting cylinder evenly is provided with a plurality of square pieces, square slide has been seted up to the inboard of square piece, sliding connection has the slide bar in the slide, the outside of slide bar is fixed with the triangle fixture block, one side of triangle fixture block is provided with the gasbag, and one side sliding connection of a plurality of square pieces has the connection disc, the outside of connecting the disc evenly is provided with the arc slide, the upper end sliding connection of arc slide and slide bar.

According to the technical scheme, fire helping hand subassembly includes first bearing dish, the one end of first bearing dish is fixed with the other end of connecting cylinder, the other end of first bearing dish evenly is fixed with three spiral leaves, be fixed with the A-frame on the inner wall of first bearing dish, the fixed second connecting rod of central authorities of A-frame, the outside of second connecting rod is provided with solid matter, three the other end of spiral leaf is fixed with the second bearing dish, the structure of second bearing dish is the same with first bearing dish, one side central authorities that the A-frame on the second bearing dish inner wall kept away from the second connecting rod are fixed with the third connecting rod, the other end welding of third connecting rod has circular cone baffle.

According to the technical scheme, the water assisting assembly comprises a water collecting disc, the inside of the water collecting disc is connected with a plurality of triangular arc plates through bearings, and one side of each triangular arc plate is fixed.

According to the technical scheme, the water power-assisted assembly is located above the fire power-assisted assembly.

According to the technical scheme, the curtain board is a plurality of groups, a plurality of groups the both sides of curtain board all are provided with first gear, one side meshing of first gear is connected with the second gear, the outside of second gear is connected with L type connecting plate, a plurality of groups the both sides of curtain board are located L type connecting plate and are fixed with the head rod.

Compared with the prior art, the invention has the following beneficial effects: the invention judges whether the wind outside the curtain wall is tornado or not by arranging the steering mechanism so as to change the running direction of the device; the wind power adjusting mechanism is arranged, so that materials sucked into the device are distinguished while air in the high-rise room is circularly replaced; different pipelines are conducted to realize different working states by arranging the rotary adjusting mechanism; the high-rise building is opened or closed as required by arranging the opening and closing mechanism, so that urban dust and impurities are solved, and the temperature in the high-rise building is stable; the rotary power-assisted mechanism is arranged to assist in generating tornadoes in different forms so as to solve the problems caused by the tornadoes in different forms.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic view of the overall front perspective of the present invention;

FIG. 2 is a schematic view of a flexible stretch film of the present invention in a first operating state;

FIG. 3 is a schematic view of a flexible stretch film of the present invention in a second operating state;

FIG. 4 is a schematic perspective view of the main rotary cylinder of the present invention;

FIG. 5 is a perspective view of the wind adjustment mechanism of the present invention in a first operational state;

FIG. 6 is a perspective view of the wind adjustment mechanism of the present invention in a second operational state;

FIG. 7 is a perspective view of the steering mechanism of the present invention;

FIG. 8 is a perspective view of the rotary adjustment mechanism of the present invention;

FIG. 9 is a schematic view of the wind adjustment mechanism and the rotation adjustment mechanism of the present invention in a first operational state;

FIG. 10 is a schematic view of the wind adjustment mechanism and the rotation adjustment mechanism of the present invention in a second operational state;

FIG. 11 is a schematic view of a third operating condition of the wind adjustment mechanism and the rotation adjustment mechanism of the present invention;

FIG. 12 is a fourth operating condition schematic view of the wind adjustment mechanism and the rotation adjustment mechanism of the present invention;

FIG. 13 is a perspective view of the fire assist assembly of the present invention;

FIG. 14 is a perspective view of the opening and closing mechanism of the present invention;

FIG. 15 is a schematic perspective view of the water assist assembly of the present invention;

in the figure: 100. a curtain wall plate; 101. an L-shaped connecting plate; 102. a first connecting rod; 103. a first gear; 104. a flexible stretched film; 200. a main rotary drum; 2001. a water outlet pipe; 2002. an air inlet pipe; 201. a second drive shaft; 202. a first auxiliary drum; 203. a second auxiliary drum; 204. a first rotating rod; 205. a third rotating rod; 206. a first auxiliary air duct; 2061. a first lower guide tube; 2062. a first upper guide tube; 207. a second auxiliary air duct; 2071. a second lower guide tube; 2072. a second upper guide tube; 300. a first drive shaft; 301. a first drive gear; 302. rotating the disc; 303. a first driven gear; 400. a three-way ball valve; 401. a valve rod; 500. a first bearing disk; 501. helical leaves; 502. a second bearing disk; 503. a conical baffle plate; 504. a connecting cylinder; 505. a square block; 506. a triangular clamping block; 507. connecting the disks; 508. an arc-shaped slideway; 509. a water accumulation plate; 510. a triangular arc plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-15, the present invention provides the following technical solutions: an aluminum plate curtain wall with a waterproof heat-preservation reinforcing structure at a sealing position comprises flexible stretching films 104 arranged between curtain wall plates 100, a steering mechanism is arranged inside the flexible stretching films 104, a wind power adjusting mechanism is arranged inside the flexible stretching films 104, a rotary adjusting mechanism is arranged inside the curtain wall plates 100, an opening and closing mechanism is arranged inside the curtain wall plates 100, and a rotary assisting mechanism is further arranged outside the curtain wall plates 100; the steering mechanism is used for judging whether the wind outside the curtain wall is tornado or not so as to change the running direction of the device, the wind power adjusting mechanism is used for circularly replacing the air in the high-rise building and distinguishing materials sucked into the device, the rotary adjusting mechanism is used for conducting different pipelines to realize different working states, the opening and closing mechanism is used for opening or closing according to needs, the temperature stability in the high-rise building is guaranteed while urban dust and impurities are solved, and the rotary assisting mechanism is used for assisting in generating tornados in different forms so as to solve the problems caused by the tornados in different forms.

The steering mechanism is in transmission connection with the flexible stretching film 104, the wind power adjusting mechanism is fixed with the steering mechanism, the rotary adjusting mechanism is in transmission connection with the curtain wall plate 100, the opening and closing mechanism is fixed with the rotary adjusting mechanism, the rotary assisting mechanism comprises a fire assisting component and a water assisting component, and the fire assisting component and the water assisting component are respectively fixed on the left side and the right side of the opening and closing mechanism.

As shown in fig. 1, the curtain wall boards 100 are provided in a plurality of groups, first gears 103 are disposed on two sides of each of the plurality of groups of curtain wall boards 100, one side of each of the first gears 103 is engaged with a second gear, the outer side of each of the second gears is connected with an L-shaped connecting plate 101 through a bearing, and first connecting rods 102 are fixed on the L-shaped connecting plates 101 on two sides of each of the plurality of groups of curtain wall boards 100; through gear engagement, rotatory first gear 103 drives the second gear of meshing with it and makes the two correspond fixed curtain wall board 100 and be close to each other and fold for flexible tensile membrane 104 between the curtain wall board 100 is protruding or sunken, and the outside wind-force and the pressure of feeling curtain wall board 100 that can be better.

As shown in fig. 2, 3 and 7, the steering mechanism includes a first driving shaft 300, two ends of the first driving shaft 300 are connected to the inside of the flexible stretch film 104 through bearings, a first driving gear 301 is fixed to the outside of the first driving shaft 300, a rotating disc 302 is fixed to the outside of the first driving shaft 300, the first driving shaft 300 penetrates through the rotating disc 302, gear teeth are arranged inside the rotating disc 302, a second driving shaft 201 is arranged below the first driving shaft 300, the second driving shaft 201 penetrates through the rotating disc 302, a first driven gear 303 is fixed to the second driving shaft 201, a narrow slideway is formed in the rotating disc 302 and located on the outside of the second driving shaft 201, and the top end of the rotating disc 302 is fixed to the flexible stretch film 104; when wind blows from the outside of the curtain wall board 100, if the air pressure is not changed at this time, when the wind strikes the flexible stretching film 104, the flexible stretching film 104 is in a state shown in fig. 2, at this time, the first driving shaft 300 is rotated counterclockwise, the first driving shaft 300 drives the driving gear 301 and the rotating disc 302 fixed on the outer side of the flexible stretching film to rotate, at this time, the flexible stretching film 104 is in a concave shape, the rotating disc 302 moves downward to enable the first driving gear 301 to be meshed with the first driven gear 303 to enable the first driven gear 303 to rotate clockwise, if the air pressure is reduced when the wind blows from the outside of the curtain wall board 100, the flexible stretching film 103 is in a convex shape shown in fig. 3, the rotating disc 302 moves upward to enable the second driving shaft 201 to slide in a narrow slide way, the first driven gear 303 is meshed with the gear teeth on the inner wall of.

As shown in fig. 5, 6, 9 and 10, the wind power adjusting mechanism includes a main rotary cylinder 200, a rotary bearing is disposed on the outer side of the main rotary cylinder 200, the front end and the rear end of the main rotary cylinder 200 are fixed inside the flexible stretching film 104, a first rotary rod is disposed inside the main rotary cylinder 200, one end of the first rotary rod is fixed to the second driving shaft 201, three first arc-shaped blades are uniformly disposed on the outer side of the first rotary rod, a plurality of water permeable holes are uniformly formed in the arc-shaped blades, an air inlet pipe 2002 is sleeved on the top end of the main rotary cylinder 200, a water outlet pipe 2001 is fixed to the lower end of the main rotary cylinder 200, a filter plate is welded at the position where the main rotary cylinder 200 is fixed to the water outlet pipe 2001, and through channels are formed at;

a first auxiliary rotary drum 202 is arranged on the left side of the main rotary drum 200, a second rotary rod 204 is arranged inside the first auxiliary rotary drum 202, one end of the second rotary rod 204 is connected to the inner wall of the first auxiliary rotary drum 202 through a bearing, four second arc-shaped fan blades are uniformly arranged on the outer side of the second rotary rod 204, a through channel is arranged at the position where the right side of the first auxiliary rotary drum 202 is contacted with the main rotary drum 200, a first auxiliary air duct 206 is fixed on one side of the first auxiliary rotary drum 202, a first rotary shaft is arranged inside the first auxiliary air duct 206, one end of the first rotary shaft is fixed with the other end of the first rotary rod 204, the other end of the first rotary shaft is connected to the inner wall of the first auxiliary air duct 206 through a bearing, first spiral fan blades are uniformly arranged on the outer side of the first rotary shaft, a first upper guide pipe 2062 is fixed on the upper end of the first auxiliary air duct 206, a first lower guide pipe 2061 is fixed on the lower end, the first auxiliary air duct 206 is fixed to the left side of the outer rotary bearing of the main rotary drum 200;

a second auxiliary rotary drum 203 is arranged on the right side of the main rotary drum 200, a third rotary rod 205 is arranged inside the second auxiliary rotary drum 203, one end of the third rotary rod 205 is connected to the inner wall of the second auxiliary rotary drum 203 through a bearing, two third arc-shaped fan blades are uniformly arranged on the outer side of the third rotary rod 205, a second auxiliary air duct 207 is fixed on one side of the second auxiliary rotary drum 203, a second rotary shaft is arranged inside the second auxiliary air duct 207, one end of the second rotary shaft and the other end of the third rotary rod 205, which is fixed with the second rotary shaft, are connected to the inner wall of the second auxiliary rotary drum 203 through a bearing, second spiral fan blades are uniformly arranged on the outer side of the second rotary shaft, the second spiral fan blades and the first spiral fan blades face the same direction, a second upper guide pipe 2072 is fixed on the top end of the second auxiliary rotary drum 203, and a second lower guide pipe 2071 is fixed on the lower end of the second;

when wind blows from the outside of the curtain wall board 100, if the air pressure is not changed at this time, the external wind mixed with combustible dust in the air and fallen leaves enters the device through the air inlet pipe 2022, at this time, the second driving shaft 201 is in a clockwise rotation state, the second driving shaft 201 drives the three first arc-shaped blades fixed outside to rotate clockwise, the wind flow generated by the clockwise rotation of the first arc-shaped blade outside the second driving shaft 201 makes the second rotating rod 204 in the first auxiliary rotating cylinder 202 on the left and the four second arc-shaped blades fixed outside thereof rotate counterclockwise, meanwhile, the third rotating rod 205 in the second auxiliary rotating cylinder 203 on the right and the two third arc-shaped blades fixed outside thereof rotate counterclockwise, and the wind speed generated by the four second arc-shaped blades on the left is greater than that generated by the two third arc-shaped blades on the right, the combustible dust in the main rotating cylinder 200 enters the first auxiliary rotating cylinder 202 on the left through the water permeable holes, the remaining leaves enter the second auxiliary rotating cylinder 203 through the through channel on the right side of the main rotating cylinder 200 through the rotating gap, the filter plate below the main rotating cylinder 200 is used for preventing the leaves inside the main rotating cylinder from being clamped into the water outlet pipe 2001, at this time, the preliminary separation of the materials in the suction device is realized, the left second rotating rod 204 is fixed with the first rotating shaft to drive the first rotating shaft to rotate anticlockwise, the right third rotating rod 205 is fixed with the second rotating shaft to drive the second rotating shaft to rotate anticlockwise, because the directions of the spiral blades on the two rotating shafts are the same, the left spiral blade blows air indoors and exhausts the two right spiral blades, the air circulation in the high-rise rooms is realized, meanwhile, the dust in the left first auxiliary rotating cylinder 202 is thrown to the inner wall of the first auxiliary rotating cylinder 202 under the influence of centrifugal force and is squeezed by the second arc-shaped blades into the first lower guide pipe 2061, the leaves in the second auxiliary rotary cylinder 203 on the right side are blown by the drawing wind and cannot reversely enter the room, the leaves fall by gravity to enter the second lower guide pipe 2071, when the curtain wall plate 100 is blown out, if the air pressure is reduced, the second driving shaft 201 reversely rotates, so that the first auxiliary rotary cylinder 202 and the second auxiliary rotary cylinder 203 on the left side and the right side rotate 180 degrees around the main rotary cylinder 200 to exchange positions, the operation direction of the device in the working state is opposite to that of the previous step, and the dust in the first lower guide pipe 2061 in the previous step is discharged while the indoor air circulation is realized.

As shown in fig. 9-10, the rotation adjusting mechanism includes a valve rod 401, one end of the valve rod 401 is connected to the inside of the curtain wall plate 100 through a bearing, a three-way ball valve 400 is disposed on the outer side of the valve rod 401, the valve rod 401 penetrates through the three-way ball valve 400, a rotating ball is disposed inside the three-way ball valve 400, a first feed pipe is disposed at the upper end of the three-way ball valve 400, the first feed pipe is sleeved with a water outlet pipe 2001, a second feed pipe is disposed at the left end of the three-way ball valve 400, the second feed pipe is disposed at the left side below the main rotating cylinder 200 and is attached to the first lower guide pipe 2061, a third feed pipe is disposed at the right end of the three-way ball valve 400, the third feed pipe is disposed at the right side below the main rotating cylinder 200 and; when curtain wall board 100 outside is played the wind, if atmospheric pressure is unchangeable this moment, three-way ball valve 400 is in the state of fig. 9, the leaf that will separate discharges alone and avoids blocking up the device operation, when curtain wall board 100 outside is played the wind, if atmospheric pressure reduces this moment, rotary valve pole 401 makes three-way ball valve 400 be in the state of fig. 10, it is the air extraction to accompany main rotary drum 200 left side this moment, discharge the combustible dust of separating into the second inlet pipe and discharge from the discharging pipe of three-way ball valve 400 lower extreme, remove dust to the device inside, the tornado parcel that simultaneously curtain wall board 100 outside was scraped forms the dust volume wind by exhaust combustible dust and leaf and makes dust and leaf concentrated the gathering.

As shown in fig. 14, the opening and closing mechanism comprises a connecting cylinder 504, a feed inlet is arranged on the outer side of the connecting cylinder 504, the feed inlet is fixed with a discharge pipe, a plurality of square blocks 505 are uniformly arranged on the outer side of one end of the connecting cylinder 504, square slide ways are arranged on the inner sides of the square blocks 505, slide rods are slidably connected in the slide ways, a triangular fixture block 506 is fixed on the outer side of each slide rod, an air bag is arranged on one side of the triangular fixture block 506, a connecting disc 507 is slidably connected on one side of each square block 505, arc slide ways 508 are uniformly arranged on the outer sides of the connecting discs 507, and the arc; when the outside of the curtain wall board 100 is windy, if the air pressure is not changed at this moment, the flexible stretching film 104 is in the state of fig. 2, the air bag is compressed at this moment, the air bag is driven to gather together with the fixed triangular clamping block 506, the sliding rod at one end of the triangular clamping block 506 slides and contracts in the direction slide way and the arc-shaped slide way 508 to close the channel on one side of the connecting disc 507, so that combustible dust and leaves are conducted into the designated mechanism to prepare for starting of the subsequent device, when the outside of the curtain wall board 100 is windy, the air pressure is reduced at this moment, the flexible stretching film 104 is in the state of fig. 3, the air bag expands at this moment, so that the triangular clamping block 506 is separated to open the channel on.

As shown in fig. 13, the fire assisting assembly comprises a first bearing disc 500, one end of the first bearing disc 500 is fixed with the other end of a connecting cylinder 504, three spiral blades 501 are uniformly fixed on the other end of the first bearing disc 500, a triangular bracket is fixed on the inner wall of the first bearing disc 500, a second connecting rod is fixed in the center of the triangular bracket, a solid matter is arranged outside the second connecting rod, a second bearing disc 502 is fixed on the other end of the three spiral blades 501, the structure of the second bearing disc 502 is the same as that of the first bearing disc 500, a third connecting rod is fixed in the center of one side, away from the second connecting rod, of the triangular bracket on the inner wall of the second bearing disc 502, and a conical baffle 503 is welded on the other end of the third connecting; when dust is formed outside the curtain wall board 100, the air bag in the previous step is contracted to discharge combustible dust and leaves into the fire power-assisted assembly through the other end of the connecting cylinder 504, and at the moment, the second connecting rod is rotated to rotate the whole fire power-assisted assembly, the combustible dust and leaves are continuously rubbed against the solid matter outside the second connecting rod, which in the present invention is preferably a solid allotrope, the self-ignition is carried out in the continuous friction process, the spiral wind formed by the rotation of the three spiral blades 501 drives the fire generated by the self-ignition to spirally rise, the fire collides with the bottom of the conical baffle 503 to be diffused and mixed with the external dust tornado, the dust tornado rotates to provide enough flowing oxygen, and the combustible dust contained in the dust tornado is ignited to promote the fire, so that the dust tornado forms the tornado, the flame ignites to consume the combustible dust in the expanding process, and the leaves clean the external dust.

As shown in fig. 11-12 and fig. 15, the water assisting assembly comprises a water accumulating disc 509, the inside of the water accumulating disc 509 is connected with a plurality of triangular arc plates 510 through bearings, and one sides of the triangular arc plates 510 are fixed; in the process of expanding the fire tornado, the device continuously operates to form a new air tornado, the external air pressure is continuously reduced, the newly generated tornado and the fire tornado have too large temperature difference to cause the cold air to fall down to form rain and hail to impact a flexible stretching film, the air inlet pipe 2022 enters the device, at the moment, the wind power adjusting mechanism is in the state shown in the figure 6, the second driving shaft 201 rotates anticlockwise to discharge the absorbed hail to the right side, the absorbed water directly falls into the lower water outlet pipe 2001, the four second arc-shaped fan blades on the right side of the second driving shaft 201 continuously rotate to cut the hail, meanwhile, the generated circulating wind blows the cold air generated by melting the hail into a room to reduce the temperature in the room so as to avoid continuous temperature rise in the room to cause high pressure, the extracted indoor air is adsorbed in the second feeding pipe when being mixed with the water vapor to remove the dust in the second feeding pipe, at the moment, the water vapor enters the connecting cylinder 504 through the discharging pipe, at the moment, a channel leading to the fire power assisting assembly is closed, liquefied water enters the water power assisting assembly through the connecting disc 507, the triangular arc plate 510 is rotated to enable water vapor in the water power assisting assembly to rotate and rise to form a small-sized water hose, the water hose is rapidly expanded to be in contact with the fire hose to extinguish the fire hose under the low pressure of external tornado, and damage caused by too long combustion time is avoided.

The water power-assisted assembly is positioned above the fire power-assisted assembly; the water helping hand subassembly is located the fire helping hand subassembly the top aim at make the fire tornado parcel water tornado of production for inside water tornado expands rapidly and eliminates the fire tornado.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.