CN112502327A - High-rise wind resistance component type aluminum plate curtain wall - Google Patents

Abstract

The invention discloses a high-rise wind resistance component type aluminum plate curtain wall, which comprises an aluminum plate curtain wall, wherein the aluminum plate curtain wall comprises a wall body, a plurality of aluminum plates are arranged on the outer side of the wall body, the aluminum plates are made of elastic materials, a plurality of support rods are arranged on the aluminum plates and the wall body, a ventilating device and a cleaning device are arranged in the wall body, the aluminum plate is fixed on the side surface of the wall body by the support rod, and absorbs the vibration when the wind blows the aluminum plate, and makes the aluminum plate swell, disperses the force of the wind, improves the wind resistance of the curtain wall, the ventilation device filters the weakened wind and blows the wind into the room, improves the comfort level in the room, when the cleaning device opens the air conditioner in the room, according to the increase of the indoor and outdoor temperature difference, the internal pipeline of the ventilation device is automatically closed and cleaned, and the service life of the ventilation device is prolonged.

Description

High-rise wind resistance component type aluminum plate curtain wall

Technical Field

The invention relates to the technical field of curtain walls, in particular to a high-rise wind resistance component type aluminum plate curtain wall.

Background

The curtain wall is the outer wall enclosure of the building, does not bear the weight, hangs like a curtain, so is also called as a curtain wall, and is a light wall with decorative effect commonly used by modern large-scale and high-rise buildings. The building outer protective structure or decorative structure consists of a panel and a support structure system, can have certain displacement capacity or certain deformation capacity relative to the main structure, and does not bear the function of the main structure.

The existing aluminum plate curtain wall for the high-rise building has few ventilation structures, because the high wind speed of the high-rise building is high, the aluminum plate curtain wall is difficult to be used for indoor ventilation, and the pipeline in the high-rise building wall is difficult to clean; because the height of the high layer is higher, the high layer has more water in rainy days and foggy days, and is easy to make the indoor moist to enter water; the lower floors are less moist and are prone to particulate matter absorption due to the obstruction of surrounding buildings and proximity to the road. Therefore, it is necessary to design a high-rise wind resistance member type aluminum plate curtain wall which can adapt to different wind speeds, filter impurities and moisture in air and automatically clean internal pipelines.

Disclosure of Invention

The invention aims to provide a high-rise wind resistance component type aluminum plate curtain wall 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 high-rise wind-resistant component formula aluminum plate curtain wall, includes aluminum plate curtain wall, aluminum plate curtain wall includes the wall body, the wall body outside is provided with a plurality of aluminum plates, aluminum plate is the elasticity material, aluminum plate and wall body are provided with a plurality of bracing pieces, be provided with ventilation unit and belt cleaning device in the wall body.

According to the technical scheme, the bracing piece includes the inner tube, the inner tube sets up in aluminum plate and is close to aluminum plate one side, the inner tube overcoat is equipped with the urceolus, the urceolus overcoat is equipped with the spring, the inner tube is close to aluminum plate one end and is provided with the bracing piece fixture block, be provided with the vibrating arm in the bracing piece fixture block, the vibrating arm side is provided with the bracing piece cavity, be provided with the spring between vibrating arm lateral wall and the bracing piece cavity, be provided with the aqueous ammonia in inner.

According to the technical scheme, the side wall of the vibrating rod is coated with catalytic materials, the inner wall of the supporting rod cavity is provided with a plurality of supporting rod elastic bags, and the supporting rod elastic bags are respectively connected with inner pipelines of other adjacent inner cylinders.

According to the technical scheme, ventilation unit includes the air inlet subassembly, the air inlet subassembly includes a plurality of air intakes, the air intake sets up in aluminum plate, be provided with a pole in the air intake, roll over the pole and be hollow structure, roll over the inside urceolus inner tube who closes on of pole and be connected, it is provided with air inlet elastic bag to roll over pole department of buckling, it is provided with the check valve to roll over pole department of buckling one side.

According to the technical scheme, the ventilation device further comprises a filtering component and a buoyancy valve, and two ends of the buoyancy valve are respectively connected with the air inlet component and the filtering component through pipelines;

the filter assembly comprises a filter pipeline, a rotating block is arranged in the filter pipeline, a plurality of arc-shaped grooves are formed in the rotating block, a filter elastic bag is arranged at one end in each arc-shaped groove, hydraulic oil is arranged in each filter elastic bag, a filter baffle is arranged at the lower side, close to the inlet end of the filter pipeline, of each rotating block, a filter screen is arranged at the other end of each rotating block, an impurity pipeline is arranged at the lower side of each filter screen, the impurity pipeline is connected with a recovery pipeline, and a recovery box is arranged at the bottom of each recovery.

According to the technical scheme, the ventilation device further comprises a filter box and a temperature difference valve, wherein two ends of the filter box are respectively connected with the filter assembly and the temperature difference valve through pipelines;

the temperature difference valve comprises a temperature difference pipeline, wherein the two ends of the temperature difference pipeline are connected with a gas storage box through pipelines, expansion gas is arranged in the gas storage box, the gas storage box is arranged outside and indoors, a temperature difference sliding block is arranged in the temperature difference pipeline, an air inlet pipe is arranged in the middle of the temperature difference sliding block, and ventilation baffles are arranged on the two sides of the temperature difference sliding block.

According to the technical scheme, belt cleaning device includes two liquid reservoirs, the liquid reservoirs sets up in the intake pipe both sides, the liquid reservoir overcoat is equipped with volute spiral spring, volute spiral spring is connected with difference in temperature pipeline top, the difference in temperature valve top is provided with the storage water tank, be provided with out the water valve ball in the storage water tank bottom delivery port department, be provided with out the water elastic ball in the play water valve ball, the liquid reservoir is connected with the inside pipe connection of play water valve ball, the liquid reservoir is provided with low density liquid with play water valve ball inside, be provided with high density liquid in the play water elastic ball, storage water tank bottom delivery port and rose box pipe connection.

According to the technical scheme, the filter box comprises a filter box body, a gauze is arranged in the filter box body, a recovery valve ball is arranged at a water outlet at the bottom of the filter box body, the interior of the recovery valve ball is connected with the interior of an elastic water outlet ball through a pipeline, an elastic air bag is arranged in the recovery valve ball, and a water outlet at the bottom of the filter box body is connected with a water storage tank top pipeline in other cleaning devices at the lower side.

According to the technical scheme, the buoyancy valve comprises a buoyancy valve body, an inlet at the top of the buoyancy valve body is connected with an air inlet pipeline, an outlet at the side face of the buoyancy valve body is connected with a filtering component pipeline, an outlet at the bottom of the buoyancy valve body is connected with a pipeline at the top of a water storage tank in other cleaning devices, a floating ball is suspended at the inlet at the top of the buoyancy valve body, a water absorption floating ball is arranged at an outlet at the bottom of the buoyancy valve body, and the density of the floating ball and the density of the water absorption floating ball when the water absorption floating.

According to the technical scheme, the arc-shaped filter screen is arranged on the outer side of one end, close to the aluminum plate, of the arc-shaped groove.

Compared with the prior art, the invention has the following beneficial effects: in the invention, the raw materials are mixed,

(1) through being provided with the bracing piece, when wind drives aluminum plate vibration, can make the aqueous ammonia flow back and forth, turn into internal energy with the effort of wind to aluminum plate, weaken the power of wind, drive the vibration of vibrating arm vibration simultaneously, make the aqueous ammonia decompose into ammonia and water, increase the pressure in inner tube and the urceolus, make the bracing piece extend, the pressure passes through the pipeline and synchronizes to the bracing piece elastic bag inside other inner tubes that close to simultaneously, hinder the extension of bracing piece around, reach the effect that aluminum plate blows the direction and swells toward the wind, the cambered surface that produces can disperse the power of wind, the anti-wind resistance of curtain wall has been improved, weaken the wind speed simultaneously, can not be too big when making wind blow into indoor, guarantee indoor ventilation effect;

(2) by arranging the air inlet assembly, when the aluminum plate swells, the air inlet elastic bag at the bent part automatically expands to block the air inlet, so that overlarge air is prevented from entering the air inlet, and at the position where the aluminum plate does not bend, the air inlet elastic bag cannot expand, so that smaller air can enter the air inlet, the effect that the aluminum plate can automatically adapt to different wind speeds and wind directions through the air inlet assembly and the supporting rod is achieved, when the wind power is larger, the aluminum plate automatically swells towards the wind blowing direction, the wind speed is weakened to be larger, the weakened smaller wind speed is sucked, when the wind power is smaller, the aluminum plate is in a flat state, the air inlet is completely opened, the air is convenient to blow in, and the wind resistance of a curtain wall and the indoor ventilation effect;

(3) through the arrangement of the filtering pipeline, when wind blows into the air inlet assembly, impurities are filtered out, the impurities on the filter screen are automatically scraped, the scraped impurities are blown into the filtering pipeline, recovery and centralized treatment are carried out, the filtering assembly can automatically limit the blown wind speed, and the indoor ventilation effect is ensured;

(4) by arranging the temperature difference valve, the ventilation pipeline is automatically opened and closed according to the indoor and outdoor temperature difference, when the indoor and outdoor temperature difference is low, the ventilation pipeline is opened for indoor ventilation, after a resident opens the air conditioner, the indoor and outdoor temperature difference is low and large, the pipeline is automatically closed, the working effect of the air conditioner is ensured, and the effect that the ventilation device automatically adapts to the living state of the resident is achieved;

(5) by arranging the cleaning device, when the temperature difference valve is closed, the water outlet at the bottom of the water storage tank is automatically opened, and the water inside the water flows into the ventilation pipeline for countercurrent washing, so that the effect of automatically cleaning the ventilation pipeline by automatically opening the cleaning device when the buoyancy valve automatically closes the ventilation pipeline is achieved, the situation that the water flows into the room when the ventilation pipeline is cleaned can be avoided, meanwhile, impurities clamped in filter holes of the filter screen can be better washed out by countercurrent washing, and the problems that the indoor water inlet and the filter screen of a high floor are difficult to detach and clean when the pipeline is cleaned are solved;

(6) by arranging the filter box, when ventilation is performed normally, moisture in the air is sucked away by the gauze, indoor water inflow is prevented in rainy days and foggy days, water is recycled to the lower-layer water storage tank, the moisture is accumulated for self-cleaning of the lower-layer ventilation pipeline, when a water outlet at the bottom of the water storage tank is opened, the water outlet at the bottom of the filter box body is automatically closed when the ventilation pipeline is self-cleaned, water flows reversely through the ventilation pipeline, and impurities on the filter screen can be conveniently and reversely washed out and the ventilation pipeline can be conveniently and reversely washed;

(7) through being provided with the buoyancy valve, when ventilating, open buoyancy valve body top import, plug up buoyancy valve body bottom export simultaneously, make the air get into air pipe, make things convenient for indoor ventilation, when the pipeline washs, open buoyancy valve body bottom export and open, make and accomplish abluent rivers and can supply the storage water tank of below through buoyancy valve body bottom export, the effect according to pipeline operating condition automatic adjustment pipeline has been reached, make the upper strata accomplish abluent water and can supply the water in the storage water tank of lower floor, the aluminum plate curtain of having avoided the lower floor is difficult to collect the problem that moisture content carries out the self-cleaning, the floater of absorbing water simultaneously can slowly absorb moisture content, increase gravity of authigenicity, sink at last and plug up buoyancy valve body bottom export, water becomes to follow the filtration pipeline and discharges this moment, forward flow, let water can take away the impurity in the.

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 structure of the present invention;

FIG. 2 is a schematic view of the support rod of the present invention;

FIG. 3 is a view showing the operation of the aluminum plate of the present invention;

FIG. 4 is a schematic view of the air intake assembly of the present invention;

FIG. 5 is a schematic view of a filter conduit configuration of the present invention;

FIG. 6 is a schematic view of the thermo-valve structure of the present invention;

FIG. 7 is a schematic view of the temperature differential slider structure of the present invention;

FIG. 8 is a schematic view of the internal piping of the present invention;

FIG. 9 is a first diagram illustrating the operation of the internal piping of the present invention;

FIG. 10 is a second view of the internal circuit operating condition of the present invention;

FIG. 11 is a third view of the working state of the internal piping of the present invention;

in the figure: 1. an aluminum plate curtain wall; 11. a wall body; 12. an aluminum plate; 2. a support bar; 21. an inner barrel; 22. an outer cylinder; 23. a supporting rod clamping block; 24. a vibrating rod; 25. a cavity of the support rod; 26. a support rod elastic bag; 3. a ventilation device; 31. an air intake assembly; 311. an air inlet; 312. folding the rod; 313. an air inlet elastic bag; 32. a filter assembly; 321. a filtration pipeline; 322. rotating the block; 323. an arc-shaped slot; 324. filtering the elastic bag; 325. a filtering baffle; 326. filtering with a screen; 327. an impurity pipeline; 328. a recovery pipeline; 329. an arc-shaped filter screen; 33. a buoyancy valve; 331. a buoyancy valve body; 332. a floating ball; 333. a water-absorbing floating ball; 34. a filter box; 341. a filter box body; 342. a screen; 343. recovering the valve ball; 344. an elastic air bag; 35. a temperature difference valve; 351. a temperature differential pipeline; 352. a temperature difference slider; 353. an air inlet pipe; 4. a cleaning device; 41. a reservoir; 42. a volute spiral spring; 43. a water storage tank; 44. a water outlet valve ball; 45. and (4) discharging the water from the elastic ball.

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. 1-11, the present invention provides the following technical solutions: as shown in fig. 1, a high-rise wind resistance component type aluminum plate curtain wall comprises an aluminum plate curtain wall 1, the aluminum plate curtain wall 1 comprises a wall body 11, a plurality of aluminum plates 12 are arranged on the outer side of the wall body 11, the aluminum plates 12 are made of elastic materials, a plurality of support rods 2 are arranged on the aluminum plates 12 and the wall body 11, a ventilation device 3 and a cleaning device 4 are arranged in the wall body 11, the aluminum plates 12 are fixed on the side surface of the wall body 11 through the support rods 2, vibration generated when wind blows the aluminum plates 12 is absorbed, the aluminum plates 12 are enabled to be bulged, the wind force is dispersed, the wind resistance capacity of the curtain wall is improved, the ventilation device 3 blows weakened wind into a room through filtering, the indoor comfort level is improved, when an air conditioner is opened indoors, a pipeline of the ventilation device 3 is automatically closed;

as shown in fig. 2, the support rod 2 includes an inner cylinder 21, the inner cylinder 21 is disposed on one side of the aluminum plate 12 close to the aluminum plate 12, the inner cylinder 21 is sleeved with an outer cylinder 22, the outer cylinder 22 is sleeved with a spring, one end of the inner cylinder 21 close to the aluminum plate 12 is provided with a support rod fixture block 23, a vibration rod 24 is disposed in the support rod fixture block 23, a support rod cavity 25 is disposed on a side surface of the vibration rod 24, the spring is disposed between a side wall of the vibration rod 24 and the support rod cavity 25, ammonia water is disposed in the inner cylinder 21 and the outer cylinder 22, when wind blows towards the aluminum plate 12, the vibration of the aluminum plate 12 is caused, the outer cylinder 22 is sleeved with the inner cylinder 21 to be continuously stretched, so that the vibration rod 24 is driven by the liquid inside to vibrate, when the vibration rod 24 stretches out towards one side, the ammonia water can, the wind resistance of the curtain wall is improved, and meanwhile, ammonia gas can be promoted to be discharged from the ammonia water by the internal energy generated by friction of the ammonia water and the inner wall of the cavity 25 of the support rod, so that the subsequent device can be conveniently carried out;

as shown in fig. 2 and fig. 3, the side wall of the vibration rod 24 is coated with catalytic materials, the inner wall of the support rod cavity 25 is provided with a plurality of support rod elastic bags 26, the support rod elastic bags 26 are respectively connected with the inner pipelines of other adjacent inner cylinders 21, in windless conditions, the vibration rod 24 is retained by the support rod fixture blocks 23, contact between the catalytic materials and ammonia water can be avoided, the support rod 2 can not extend in windless conditions, when wind occurs, the vibration rod 24 can contact with the ammonia water at two sides when vibrating, the ammonia water is decomposed into ammonia water and water, the pressure in the inner cylinders 21 and the outer cylinders 22 is increased, the support rod 2 extends, the aluminum plate 12 is supported, meanwhile, because the aluminum plate 12 has larger vibration towards one side of the wind direction, the pressure in the inner cylinders 21 and the outer cylinders 22 at the position is larger, the pressure is synchronous to the support rod elastic bags 26 in other adjacent inner cylinders 21 through the pipelines, the vibration amplitude in other support, the supporting rod elastic bag 26 can overcome the internal pressure of other supporting rods 2, expands and contacts the vibrating rod 24, so that the adjacent supporting rod 2 is short in extension length, the effect that the aluminum plate 12 can be blown to the wind direction is achieved, the generated cambered surface can disperse the wind force, the wind resistance of the curtain wall is improved, the wind speed is weakened, the wind cannot be too large when blown into the room, and the indoor ventilation effect is ensured;

as shown in fig. 3 and 4, the ventilation device 3 includes an air intake assembly 31, the air intake assembly 31 includes a plurality of air inlets 311, the air inlets 311 are disposed in the aluminum plate 12, a folding rod 312 is disposed in the air inlets 311, the folding rod 312 is of a hollow structure, the interior of the folding rod 312 is connected to the adjacent inner pipe of the outer cylinder 22, an air intake elastic bag 313 is disposed at the bending position of the folding rod 312, a one-way valve is disposed at one side of the bending position of the folding rod 312, when the aluminum plate 12 bulges, the bending position is a main wind receiving surface, wind power is large, and the folding rod 312 is not suitable for indoor ventilation, where the folding rod 312 is bent due to the bending of the aluminum plate 12 to expose an opening, so that the interior of the air intake elastic bag 313 is connected to the adjacent inner pipe of the support rod 2, and because the internal pressure of the support rod 2 at the bending position of the aluminum plate 12, because the arc surface of the aluminum plate 12 has a dispersion effect on wind, the wind power is small, and the aluminum plate is suitable for indoor ventilation, and because the aluminum plate 12 is bent, the folding rod 312 is not bent, the opening is closed, and the air inlet elastic bag 313 cannot expand, so that small wind can enter the air inlet 311, when the aluminum plate 12 is not bulged, the external wind power is small, at the moment, the air inlet 311 is completely opened, so that the wind is convenient to blow in, the effect that the aluminum plate 12 can automatically adapt to different wind speeds and wind directions through the air inlet assembly 31 and the supporting rod 2 is achieved, when the wind power is large, the aluminum plate 12 automatically bulges towards the wind blowing direction, the wind with large wind speed is weakened, the small wind speed after the weakening is sucked, when the wind power is small, the aluminum plate 12 is changed into a flat state, the air inlet 311 is completely opened, so;

as shown in fig. 5, 8 and 9, the ventilation device 3 further comprises a filter assembly 32 and a buoyancy valve 33, wherein two ends of the buoyancy valve 33 are respectively connected with the air inlet assembly 31 and the filter assembly 32 through pipelines;

the filtering component 32 comprises a filtering pipeline 321, a rotating block 322 is arranged in the filtering pipeline 321, a plurality of arc-shaped grooves 323 are arranged in the rotating block 322, a filtering elastic bag 324 is arranged at one end in the arc-shaped groove 323, hydraulic oil is arranged in the filtering elastic bag 324, a filtering baffle 325 is arranged at the lower side of one end, close to the inlet of the filtering pipeline 321, of the rotating block 322, a filter screen 326 is arranged at the other end of the rotating block 322, an impurity pipeline 327 is arranged at the lower side of the filter screen 326, the impurity pipeline 327 is connected with a recovery pipeline 328, a recovery box is arranged at the bottom of the recovery pipeline 328, after the wind blows into the air inlet component 31, the wind passes through the buoyancy valve 33 and reaches the filtering pipeline 321, the rotating block 322 is driven to rotate by the acting force inside the arc-shaped grooves 323 through the wind, the wind speed is larger, the rotating block, when wind blows out of the arc-shaped groove 323, the wind passes through the filter screen 326, water and air can be thrown off the filter screen 326 due to the centrifugal force generated by the rotation of the rotating block 322, solid impurities such as particles and the like can be filtered out by the filter screen 326, the inner wall of the arc-shaped groove 323 can be driven to scrape the impurities on the filter screen 326 while the rotating block 322 rotates, the filter baffle 325 blocks most of air from entering the impurity pipeline 327, so that the ventilation effect is ensured, and a small part of air can blow the scraped impurities into the impurity pipeline 327 when the arc-shaped groove 323 passes through the opening of the impurity pipeline 327, so that the impurities are recovered and concentrated, the wind speed of the blown air can be automatically limited by the filter assembly 32, the indoor ventilation effect is ensured, the impurities in the air are automatically filtered out, the;

as shown in fig. 6 and 8, the ventilation device 3 further includes a filter box 34 and a temperature difference valve 35, wherein two ends of the filter box 34 are respectively connected with the filter assembly 32 and the temperature difference valve 35 through pipelines;

the temperature difference valve 35 comprises a temperature difference pipeline 351, both ends of the temperature difference pipeline 351 are connected with gas storage tanks through pipelines, expansion gas is arranged in the gas storage tanks, the gas storage tanks are respectively arranged outside and inside, a temperature difference slider 352 is arranged in the temperature difference pipeline 351, an air inlet pipe 353 is arranged in the middle of the temperature difference slider 352, and ventilation baffles are arranged on both sides of the temperature difference slider 352, when the temperature difference between the inside and the outside of the room is not large, the expansion amplitude of the expansion gas in the gas storage tanks on both sides is basically the same, so that the stress on both sides of the temperature difference slider 352 is the same, the temperature difference slider 352 is mutually offset, the air inlet pipe 353 is fixedly arranged, the air inlet pipe 353 is communicated with the pipelines on both sides, when a resident opens an air conditioner, the temperature difference between the inside and the outside of the room is increased, the expansion amplitude of the, the working effect of the air conditioner is guaranteed, the effect that the temperature difference valve 35 can automatically open and close the ventilation pipeline according to the indoor and outdoor temperature difference is achieved, when the indoor and outdoor temperature difference is low, the ventilation pipeline is opened for indoor ventilation, after the air conditioner is opened by a resident, the indoor and outdoor temperature difference is low and large, the pipeline is automatically closed, the working effect of the air conditioner is guaranteed, and the effect that the ventilation device 3 automatically adapts to the living state of the resident is achieved;

as shown in fig. 7, 8 and 10, the cleaning device 4 includes two liquid storage bags 41, the liquid storage bags 41 are disposed at two sides of the air inlet pipe 353, a volute spring 42 is sleeved outside the liquid storage bag 41, the volute spring 42 is connected with the top of the temperature difference pipeline 351, a water storage tank 43 is disposed above the temperature difference valve 35, a water outlet valve ball 44 is disposed in a water outlet at the bottom of the water storage tank 43, a water outlet elastic ball 45 is disposed in the water outlet valve ball 44, the liquid storage bag 41 is connected with an inner pipeline of the water outlet valve ball 44, a low-density liquid is disposed inside the liquid storage bag 41 and the water outlet valve ball 44, a high-density liquid is disposed inside the water outlet elastic ball 45, a water outlet at the bottom of the water storage tank 43 is connected with a pipeline of the filter tank 34, when the temperature difference valve 35 is closed, the temperature difference slider 352 moves left and right, the volute, the pressure of the liquid storage bags 41 on the two sides is synchronized to the inside of the water outlet valve ball 44, the flowing of the liquid can drive the water outlet elastic ball 45 to negatively press the pipeline on one side, the pressure on the other side is continuously increased at the moment, the water elastic ball 45 can be extruded to discharge high-density liquid inside, meanwhile, the accumulation of low-density liquid inside the water valve ball 44 reduces the overall density of the water valve ball 44, the water valve ball 44 floats upwards, the water outlet at the bottom of the water storage tank 43 is opened, the water inside flows into the ventilation pipeline for counter-current flushing, the effect of automatically opening the cleaning device 4 to automatically clean the ventilation pipeline is achieved when the buoyancy valve 33 automatically closes the ventilation pipeline, the situation that when the ventilation pipeline is cleaned, the water flows into the room, meanwhile, the counter-current flushing can better flush out impurities blocked in filter holes of the filter screen 326, and the problem that the indoor water inlet and the filter screen on a;

referring to fig. 9-11, the filter box 34 includes a filter box 341, a gauze 342 is disposed in the filter box 341, a recovery valve ball 343 is disposed at a bottom water outlet of the filter box 341, the interior of the recovery valve ball 343 is connected to an interior of the water outlet elastic ball 45 through a pipe, an elastic air bag 344 is disposed in the recovery valve ball 343, the bottom water outlet of the filter box 341 is connected to a top pipe of the water storage tank 43 of the other lower cleaning device 4, during normal ventilation, the gauze 342 can suck away moisture in the air and drop on the bottom of the filter box 341, at this time, the elastic air bag 344 in the water outlet elastic ball 45 is larger and less high-density liquid is present, the water accumulated at the bottom of the filter box 341 can float up the water elastic ball 44 to recover the water to the lower water storage tank 43, thereby self-cleaning and accumulating the moisture for the ventilation pipe of the lower layer, while the water storage tank 43 of the uppermost layer can be placed on the roof to, high-density liquid discharged by the water elastic ball 45 enters the recovery valve ball 343 through pipeline connection and extrudes and reduces the elastic air bag 344, so that the gravity of the recovery valve ball 343 is increased and cannot be floated by water, the water outlet at the bottom of the filtering box 341 is automatically closed, the effect of automatically filtering and recovering water in air by the filtering box 34 during ventilation is achieved, indoor water inflow is prevented in rainy days and foggy days, water is automatically cleaned and accumulated in the lower-layer ventilation pipeline, and simultaneously, when the ventilation pipeline is automatically cleaned, the water outlet at the bottom of the filtering box 341 is automatically closed, so that water flows through the ventilation pipeline in a reverse direction, and impurities on the filter screen 326 are conveniently and reversely flushed out of the ventilation pipeline;

as shown in fig. 8-11, the buoyancy valve 33 comprises a buoyancy valve body 331, the top inlet of the buoyancy valve body 331 is connected to the air inlet 311 through a pipe, the side outlet of the buoyancy valve body 331 is connected to the filter assembly 32 through a pipe, the bottom outlet of the buoyancy valve body 331 is connected to the top of the water storage tank 43 of the other cleaning device 4 through a pipe, a floating ball 332 is suspended at the top inlet of the buoyancy valve body 331, a water-absorbing floating ball 333 is disposed at the bottom outlet of the buoyancy valve body 331, the density of the floating ball 332 and the density of the water-absorbing floating ball 333 are both less than that of water when water is not absorbed, during ventilation, the floating ball 332 and the water-absorbing floating ball 333 open the top inlet of the buoyancy valve body 331 by their own gravity, and simultaneously block the bottom outlet of the buoyancy valve body 331 to allow air to enter the ventilation duct, thereby facilitating indoor ventilation, during cleaning of the duct, because the density of the, the water flow which finishes cleaning can be supplemented to the water storage tank 43 below through the outlet at the bottom of the buoyancy valve body 331, so that the effect of automatically adjusting the pipeline according to the working state of the pipeline is achieved, the water which finishes cleaning at the upper layer can be supplemented to the water in the water storage tank 43 at the lower layer, and the problem that the aluminum plate curtain wall 1 at the lower layer is difficult to collect water for self cleaning is avoided;

as shown in fig. 5, 10 and 11, an arc-shaped filter screen 329 is arranged on the outer side of the arc-shaped groove 323 close to one end of the aluminum plate 12, when the pipeline is self-cleaned, the water flow firstly washes out the impurities blocked in the filter holes of the filter screen 326, then the rotation block 322 is driven to rotate, at this time, the rotation block 322 centrifuges the water inside, the impurities are centrifuged to the outermost side due to high density, and finally are blocked by the arc-shaped filter screen 329, the water can pass through the arc-shaped filter screen 329, so that the impurities are left in the arc-shaped groove 323, when the water cleaned is replenished into the water in the lower-layer water storage tank 43, the impurities cannot be mixed in, when the water is replenished into the lower-layer water storage tank 43, the water suction floating ball 333 slowly absorbs the water to increase the self-generated gravity, and finally sinks to block the outlet at the bottom of the buoyancy valve body 331, at this time, the water becomes discharged from the impurity pipeline 327, the effect of automatically cleaning the arc-shaped filter screen 329 and the filter screen 326 is achieved, and the cleaned impurities are automatically collected and recovered, so that the impurities are prevented from being mixed when the water in the lower-layer water storage tank 43 is supplemented.

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.

Claims (10)

1. The utility model provides a high-rise wind-resistance component formula aluminum plate curtain wall, includes aluminum plate curtain wall (1), its characterized in that: the aluminum plate curtain wall (1) comprises a wall body (11), a plurality of aluminum plates (12) are arranged on the outer side of the wall body (11), the aluminum plates (12) are made of elastic materials, a plurality of support rods (2) are arranged on the aluminum plates (12) and the wall body (11), and a ventilating device (3) and a cleaning device (4) are arranged in the wall body (11).

2. The high-rise wind-resistance component type aluminum plate curtain wall as claimed in claim 1, wherein: bracing piece (2) include inner tube (21), inner tube (21) set up and are close to aluminum plate (12) one side in aluminum plate (12), inner tube (21) overcoat is equipped with urceolus (22), urceolus (22) overcoat is equipped with the spring, inner tube (21) are close to aluminum plate (12) one end and are provided with bracing piece fixture block (23), be provided with vibrating arm (24) in bracing piece fixture block (23), vibrating arm (24) side is provided with bracing piece cavity (25), be provided with the spring between vibrating arm (24) lateral wall and bracing piece cavity (25), be provided with the aqueous ammonia in inner tube (21) and urceolus (22).

3. The high-rise wind-resistance component type aluminum plate curtain wall as claimed in claim 2, wherein: the vibrating rod (24) lateral wall scribbles the catalytic material, bracing piece cavity (25) inner wall is provided with a plurality of bracing piece elasticity bags (26), bracing piece elasticity bag (26) respectively with other inner tube (21) inner tube that close to be connected.

4. The high-rise wind-resistance component type aluminum plate curtain wall as claimed in claim 3, wherein: ventilation unit (3) are including air inlet subassembly (31), air inlet subassembly (31) include a plurality of air intakes (311), air intake (311) set up in aluminum plate (12), be provided with folding rod (312) in air intake (311), folding rod (312) are hollow structure, folding rod (312) inside and urceolus (22) internal pipe connection that closes on, folding rod (312) department of buckling is provided with air inlet elastic bag (313), folding rod (312) department of buckling one side is provided with the check valve.

5. The high-rise wind-resistance component-type aluminum plate curtain wall as claimed in claim 4, wherein: the ventilation device (3) further comprises a filtering component (32) and a buoyancy valve (33), and two ends of the buoyancy valve (33) are respectively connected with the air inlet component (31) and the filtering component (32) through pipelines;

the filter assembly (32) is including filtering pipeline (321), be provided with rotatory piece (322) in filtering pipeline (321), be provided with a plurality of arc walls (323) in rotatory piece (322), one end is provided with in arc wall (323) and filters elastic bag (324), be provided with hydraulic oil in filtering elastic bag (324), rotatory piece (322) are close to filtering pipeline (321) import one end downside and are provided with and filter baffle (325), rotatory piece (322) other end is provided with filter screen (326), filter screen (326) downside is provided with impurity pipeline (327), impurity pipeline (327) pipe connection has recovery duct (328), recovery duct (328) bottom is provided with the collection box.

6. The high-rise wind-resistance component-type aluminum plate curtain wall as claimed in claim 5, wherein: the ventilation device (3) further comprises a filter box (34) and a temperature difference valve (35), wherein two ends of the filter box (34) are respectively connected with the filter assembly (32) and the temperature difference valve (35) through pipelines;

temperature difference valve (35) are including difference in temperature pipeline (351), the equal pipe connection in difference in temperature pipeline (351) both ends has the gas storage tank, be provided with expanding gas in the gas storage tank, the gas storage tank sets up respectively in outside and indoor, be provided with difference in temperature slider (352) in difference in temperature pipeline (351), be provided with intake pipe (353) in the middle of difference in temperature slider (352), difference in temperature slider (352) both sides are provided with the ventilation baffle.

7. The high-rise wind-resistance component-type aluminum plate curtain wall as claimed in claim 6, wherein: cleaning device (4) include two liquid reservoirs (41), liquid reservoir (41) set up in intake pipe (353) both sides, liquid reservoir (41) overcoat is equipped with volute spiral spring (42), volute spiral spring (42) are connected with difference in temperature pipeline (351) top, temperature difference valve (35) top is provided with storage water tank (43), be provided with outlet valve ball (44) in storage water tank (43) bottom delivery port department, be provided with outlet elastic ball (45) in outlet valve ball (44), liquid reservoir (41) and outlet valve ball (44) internal pipeline are connected, liquid reservoir (41) and outlet valve ball (44) inside are provided with low density liquid, be provided with high density liquid in outlet elastic ball (45), storage water tank (43) bottom delivery port and rose box (34) pipe connection.

8. The high-rise wind-resistance component-type aluminum plate curtain wall as claimed in claim 7, wherein: the filter box (34) comprises a filter box body (341), a gauze (342) is arranged in the filter box body (341), a water outlet at the bottom of the filter box body (341) is provided with a recovery valve ball (343), the interior of the recovery valve ball (343) is connected with an inner pipeline of a water outlet elastic ball (45), an elastic air bag (344) is arranged in the recovery valve ball (343), and a water outlet at the bottom of the filter box body (341) is connected with a top pipeline of a water storage tank (43) in other cleaning devices (4) at the lower side.

9. The high-rise wind-resistance component-type aluminum plate curtain wall as claimed in claim 8, wherein: the buoyancy valve (33) comprises a buoyancy valve body (331), an inlet at the top of the buoyancy valve body (331) is connected with an air inlet (311) through a pipeline, an outlet at the side surface of the buoyancy valve body (331) is connected with a filtering component (32) through a pipeline, an outlet at the bottom of the buoyancy valve body (331) is connected with a top of a water storage tank (43) in other cleaning devices (4) through a pipeline, a floating ball (332) is hung at the inlet at the top of the buoyancy valve body (331), a water absorption floating ball (333) is arranged at an outlet at the bottom of the buoyancy valve body (331), and the density of the floating ball (332) and the density of the water absorption floating ball (333) when the.

10. The high-rise wind-resistance component-type aluminum plate curtain wall as claimed in claim 9, wherein: an arc-shaped filter screen (329) is arranged on the outer side of one end, close to the aluminum plate (12), of the arc-shaped groove (323).

Images