DE102008006195A1 - Wind e.g. cyclone, -stealthy house, has protective complex comprising lining grid with camouflage as grid, in whose body sound absorbing material and dust remover are fixed, where lining grid is tightened to ribs of crest - Google Patents

Abstract

The building has a protective complex (3) comprising a crest (53) with ribs (55) that indivisibly connected with a frame (56) and evenly lie on the building. The frame is supportably connected with a base (6), and the crest is filled with a durable material, which bears multiple strokes of sherd and stone. The protective complex has lining grid (54) with a camouflage as a grid, in whose body a sound absorbing material (57) and a dust remover (58) are fixed. The lining grid is tightened to the ribs.

Description

The Invention relates to the buildings, the action of the unfavorable conditions of the climate, in particular capable, enough strong spontaneous wind, exclusively the windbreaks and the cyclones, without any noticeable destruction to suffer.

The problem of adaptation to change of climate is at present given unrelated attention. For example, that serves « Green paper from the commission to the council, the european parliament, the european economic and social committee and the committee of the regions. Adapting to climate change in Europe - options for EU action. Delegations want to find attached Commission document SEC (2007) 848 ».

A the climatic phenomena, the human civilization to bear the inexhaustible hardships is the strong one spontaneous wind. Humanity has become accustomed and became to the winds, with a certain frequency and specific Blowing directions, used. But the change has of the climate on the earth, for what reasons it does not explain in fact, it would cause new phenomena, in particular it is the climatic phenomena that spontaneously with the high level of indefiniteness.

This phenomenon has been studied from a scientific and practical standpoint at World Climate conference 2003. Including in the Lecture dr. B. Bolin (Sweden) «THE CLIMATE AND THE SCIENCE, KNOWLEDGE AND THE UNDERSTANDING, NECESSARY FOR ACTION IN CONDITIONS OF UNCERTAINTY» ,

To the annihilation factors of the strong wind: the aerial wave, the sound wave and the other extermination factors: the shards, the Stones, the sand and the dust, become the destruction factors strong spontaneous wind adds: suddenness and the versatile direction.

The known inventions are various access to the protection of Buildings and buildings from strong spontaneous wind recycle. But ensure the simultaneous prevention of not all destruction factors.

One best-known and widely used protection of objects from impact of the wind is the fortifications. The buildings are in the Earth deepens, and the land part is called the dome with the staged thick walls.

Out DE 4329954 the house «Ball house» is known, and from DE 3827503 The house «Biotope-domes» is known, whose form represents the hemisphere, which is based on the basement. The building is reminiscent of the shape of the casemate - the military fortification. Does not meet the aesthetic criteria of residential buildings. The height of the building dictates the minimum extent in the plan, always the same double height, which is a significant negative property.

Out DE 9214982 The recessed semi-spherical house with the foundations is known as the metallic anchors that hold the structure in the strong wind. The construction has the above negative characteristics. The metallic anchors will not release the building's resistance under the action of the strong wind: the building may be demolished by the anchors, accompanied by significant destruction and human sacrifice.

These Idea to hide the building in the ground and, so from him looks the way to save it, the full immersion.

Out DE 199 04 754 The house «Hurricane house», which falls on a floating platform and at strong wind falls in a tub, the water from which it is necessary to suck off pumps is known.

Out DE 20 2007 006 739 The house «House for protection against storm damage», located on windlasses and falling in a cellar at strong wind is known.

Both Solutions consider the suddenness the manifestation of the hurricane not. It is essential Defect.

On the real psychological Kasen one can get the idea of the camouflage of the Obtain construction.

Out DE 10 2005 008 446 It is completely known the suggestion to cover the building with tarpaulin at strong wind.

The Solution takes into account the suddenness of the Manifestation of the hurricane not. A major shortcoming is Complexity of release from tarpaulin after a break of the storm, as the shards and the dust will not allow it.

The idea of the coexistence of the construction with the strong spontaneous wind corresponds to the series of inventions. Out DE 2328430 The facilitated construction «prefabricated house» of the roll-shaped with the roof is known as the dome, presumably resisting wind.

The Construction will provide adequate protection from all annihilation factors do not have, and under the wind is the destruction factor for be easy on other buildings.

The series of known inventions: DE 2932034 . EP 79646 . US 3968411 Concern for buildings as "Igly" which has the form of a conical dome with a cylindrical base, resisting strong wind.

One essential lack of construction is the centers of turbulence at the transition of the wall into the foundation at the level of Earth, and also the lack of protection from all annihilation factors.

Out RU 2005130149 The invention of the house of increased protection «Panzeroid» is known, in which the external surface will have the nature of the ellipsoid.

But the support part for the opposition is the strong one Wind is not predetermined and the shape of the surface is limited only one curve, which is the essential shortcoming is.

The System analysis, the assessment both the forecasting the destruction of the buildings as well as the buildings, and also the characteristic of the degree of destruction and human sacrifice, allows the unequivocal conclusion to make that construction capable, the strong enough to endure spontaneous wind without tangible destruction should not only coexist with him, but also adapted to him to be. It will be under the adjustment the possibility understood to be no obstacle to the wind, and, on such a way, invisible to the wind (stealth technology) to be.

outgoing of which, an object of the invention is the construction, over the properties of invisibility for the strong spontaneous Wind has, and protected from the rest Destruction factors.

The Solution of this task is ensured: by the special geometric shape of the building, the real one Support system, the special constructions of the roof, the windows, the doors and the balcony, the protection complex from the influence of repeated destruction factors.

The The solution finds the solution in the claim characteristics 1, 2 and 3.

Corresponding the claim 1, building invisible to the wind, "Windstealthyhaus", consisting of the building, which contains a housing Roof, a base, not less than a window, not less than an entrance door, becomes a balcony, and a support system, also arrange a protection complex.

Of the Protection complex ensures the protection of the building before the secondary factors of destruction: the rubble, the stones, the tree trunks.

there the center of gravity of the building agrees with the geometric one Center or is close to it. It increases the resistance of the building to the horizontal Stream of wind.

The Housing is in the shape of the complicated figure of the axis rotation Conical sections consist, to the majority of points of the line of the draft are the tangents, while the distance between the foci of the upper and lower figures of the axis rotation to the extent of the larger diameter the vertical central axis of rotation approximately like (1 + π) / π.

The Housing also may be in the shape of the figure of the axis rotation the straight line, at the ratio of the height of the figure about equal to the larger diameter 4: 3 exist.

The Shape of the outer surface determines the aerodynamic Properties of the building. The wind bends the building goes past him, practically does not meet the obstacles, and with it becomes the main feature of the building - the invisibility for guaranteed the wind.

The Surface of the housing of the building is of rolled nontextile material with low thermal conductivity and the high fire resistance related.

The Roof will consist in the flow around mushroom-shaped, is hard connected to the housing, and after the perimeter is opened by the oval ledge; the constructive components of the Roof will be without angle.

The Cover is without joints with the maximum smooth surface Fulfills.

The Fill windows and the front door to the brim the wall openings completely, the shape of the exterior Glass and the door leaf convex, coinciding with the outer surface of the housing.

These Features ensure lack of centers of Turbulent on the surface of the building and are the necessary demands windstealth Technology.

The Roof wreaths the concavity with no less as a central drain.

The Shape of the roof ensures the use of force the current of the wind from above, as the opposition the stream of Wind from below and their mutual deletion or, anyway, the increased resistance of the whole building created under the effect of this stream of wind.

The Building will be no less than two balconies, located coaxially arrange according to the opposite sides.

The Balconies will have the added construction, and will be like the balcony system consists of two panels, the frame, two protective panels, four side rails, two support springs, and two Sets of roller trains will order.

Of the Frame is in the shape of the U-beam, with the carcass the building is hard, meets, and is supplied with the rollers from both ends, and the roller trains are located from both sides of the frame.

The Protective panels are set up from the front of each balcony, become the convex shape that leads to the outer surface the housing matches.

The Side railings become the hinged construction acting as the Telescopic grille is met, have, and consist of necessary amount of the stands, and not less than two horizontal belts made from the necessary amount Separate plates are formed, hingedly connected among themselves standing firm on the fork.

The Support springs are attached to each plate of the balcony from below strengthened, while their opposite edge is supported free on the wall of the building.

A Such complicated construction of the balcony is necessary because the Force of the wind directed under the balcony the stunning moment creates for whole carcass of the building.

The Base is called the rectangular frame that matches the case durable, fulfilled. Considering the complicated configuration of the building, not that often outside the flat bases has the frame passing the base even of the pressure of the whole building on the supports of the foundation. Guaranteed according to building physics requirements, as under the conditions of stationary state, as well as under the action of the wind.

The Support system has the features adaptability and consists of the supporting part, of the moving part, the fin and the adapter.

The Construction of the support system ensures the principal possibility, the invisibility of the building to realize the wind, given the idea of hard construction with the recessed base and the foundation of the idea of flexible construction replaced with adaptive management.

The strong wind, first, to aspire to the building from the foundation to demolish at earth level, and, having directed above, creates the dazzling moment with respect to the earth. But it is enough to over the building to pick up the earth, and it is not caused without problems the building of the damage, continue to pass.

Of the Support part becomes no less than central support, located in the geometric center of the base of the building is located, not less than four angular braces, that way be, arrange that on them the composable carrier could support in four angular zones of the building.

Of the Support member is an ordinary pile foundation the building, but at the same time is for the rest Parts of the system.

Of the movable part consists of not less two pairs of composable ones Carriers whose each pair are in line with each other and both couples are cross-shaped Fixed by means of joints connected to the central stand.

Everyone Compositable carrier is with the base of the building connected by the hinge and freely rests on the angle brackets.

The central rod is durable connected to the central support. Each consists of the composite carriers of two Bodies: the fins hull and the slider hull, which is indivisibly connected with each other, the scenery and the slider.

Of the Flosserumpf is located from above, and the slider hull is located from below of the composite carrier.

Everyone Flosserumpf is a U-beam, and each of the slider hull is pipe and will fold along the whole length of the bottom Arrange edge.

Each gate couples the slider and the central support by means of the joint, while the Slide the slider freely along the fold.

Of the movable part of the system at the expense of the action of the sliding mechanism allowed under the action of the wind, the building over the supports, not demolished have been lifted from them to become. The building as if floats on the wind.

The Fin represents the system consisting of four identical parts the load, the cylindrical spring and the rope in each of the U-shaped carrier is located.

The cylindrical spring is normally compressed and is with the central stand connected on the one hand and the load on the other.

The Rope couples the corresponding backdrop with the load, which slides easily or to be rolled within the U-shaped vehicle. The fin creates the correction of the inclination of the building under the effect of the wind: at the expense of changing the load from the center to the periphery, the inclination angle of the Building.

Of the Adapter becomes not less than two pairs of hydraulic windlasses, which are connected by two pairs of pipelines, completely arrange filled by the hydraulic fluid. Each pair of windlasses is composable with the corresponding pair Carrier connected and will be under their free ends set up.

The Device ensures the adaptability of the support system, which is particularly shown in the strong wind becomes. The building will contribute to the effect of the wind to adjust.

Of the Protection Complex consists of the covering grille with camouflage, the crown, even existing ribs located around the building and connected with the indivisible Frame that is durable with the base.

The Crown is made of the most durable material that endure capable of multiple blows of shards and stones is satisfied.

The Disguise grid with the camouflage, will exist as the grid, in whose body two types of camouflage are fixed: the Sound absorbing material and the deduster.

The Panel grille is consolidated to the ribs of the crown.

Of the Protection complex ensures the protection of the building before the secondary factors of destruction: the crown meets the fragments of the buildings, the stones, the pipes of the trees, and the camouflage gathers in itself Dust and sand, and also erases the sound wave, which accompanies the strong wind.

Corresponding claim 2, building invisible to the wind, Windstealthy house, containing two and a few floors are going up to claim 1, the discrete construction with the free space between the floors, with each floor having its support system, that contains the moving part and the fin, and the message between the floors is coming to fruition the lift located in the central supporting structure becomes. It meets the requirement of invisibility for the wind of each floor and the whole building as a whole.

Corresponding claim 3, building invisible to the wind, Windstealthyhaus, according to claim 1 and 2 is full of the sentence have the necessary engineering equipment: the sewer, the water supply, the electrical supply, the gasification, the cable system for the phone and television.

the coaxially central drain, within it, will become the pipe of the system of heating and / or suction ventilation, which ensures the melting of the snow, is the rain and thawed water after the central drain in the magazine located outside the building.

The Sewerage is from flexible connection to sewerage stanchions as the furs or the Fernfaltenschlauch met with the tapered bushings.

The Water pipe, electrical supply, gasification, the cable phone and the television are of flexible armored hoses, which are placed on the springy drum devices are met, furnished within the building.

Not ensures the design changes in time of the building, always ready to meet with the strong Wind, the universal connection to the engineering Nets that work regardless of the condition of the weather conditions, all this independence from the suddenness and different orientation of the appearance of the wind.

building Invisible to the wind, Windstealthyhaus is invariant in relation to the weather conditions of the operation.

The Invention will be detailed by means of the embodiment explained.

is shown:

1 - Windstealthyhaus, the universal variant.

2 - Windstealthyhaus, the cylindrical variant.

3 - Windstealthyhaus, the multi-storey variant.

4 - Windstealthy house, the roof.

5 - Windstealthy house, the window.

6 - Windstealthyhaus, the front door.

7 - Windstealthyhaus, the balcony system

8th - Windstealthyhaus, the railings

9 - Windstealthyhaus, the support system

10 - Windstealthy house, the support system, the top view.

11 - Windstealthyhaus, the composite carrier.

12 - Windstealthyhaus, the adapter

Building invisible to the wind, Windstealthyhaus, ( 1 ) consists of the building ( 1 ), the adaptive support system ( 2 ), the protection complex ( 3 ).

The building ( 1 ) the housing ( 4 ), the roof ( 5 ), the basis ( 6 ), not less than a window ( 7 ), no less than an entrance door ( 8th ), no less than a balcony system ( 9 ).

The building ( 1 ) is in the aerodynamic form, which ensures the unimpeded passage the air waves, ie there is no obstacle to the wind. For that it will not arrange corners and rectangular surfaces.

• – Die Variante 1 – stellt die Außenoberfläche der Gehäuse (4) nach der Form die komplizierte Figur der Drehens der konischen Schnitte, solch, dass die Linien des Stromes der Luftwelle die Tangenten zur Mehrheit der Punkte auf der Außenoberfläche dar. Dabei, betrifft der Abstand zwischen den Brennpunkten der oberen und unteren Figuren des Drehens zum Ausmaß des größeren Durchmessers der senkrechten zentralen Drehachse ungefähr wie (1 + π)/π. Zum Beispiel, ist auf 1 die Vereinigung zwei Figuren des Drehens aufgezeigt: obere (10) – die Parabeln um die zentrale Achse und unter (11) – der Kreis um die selbe Achse.
• – Die Variante 2 – stellt die Außenoberfläche der Gehäuse (4) nach der Form die Figur der Drehens der Gerade um die zentrale Achse dar. Das Verhältnis der Höhe zum Durchmesser der Basis ungefähr gleich 4:3. Zum Beispiel, ist auf 2 der Zylinder aufgezeigt.

The housings ( 4 ) of the building ( 1 ) is fulfilled in some variants of the geometric shape of the outer surface:

• - Variant 1 - represents the outer surface of the housing ( 4 ) on a form the difficult figure of rotation of conic sections, such that lines of a stream of an air wave represent tangents to the majority of points on an outside surface. Here, the distance between focal points of the top and bottom figures of rotation concerns to extent of the larger diameter of the vertical central axis of rotation approximately like (1 + π) / π. For example, it's up 1 the union revealed two figures of turning: upper ( 10 ) - the parabolas around the central axis and under ( 11 ) - the circle around the same axis.
• - Variant 2 - represents the outer surface of the housing ( 4 ) on a form the figure of rotation of a straight line about a central axis. The ratio of height to diameter of a base approximately equals 4: 3. For example, it's up 2 the cylinder indicated.

The outer surface of the housing ( 4 ) quite smoothly, there is no possibility of creation of centers of turbulence. All necessary unevenness has been smoothed out. It is achieved by that whole surface of the housing ( 4 ) of the nontextile rolled material with the low thermal conductivity and the high refractoriness, for example of the basalt linen, will be related to the gluing of the joints and the edges. Other methods of achievement of similar finding, for example whole-cast articles of wall blocks from cellular plastic are possible also.

Allen, what is in the geometric shape of the outer surface of the housing ( 4 ) completed: the walls, the false ceilings, the staircase, are made of ordinary building materials. The inner rooms are filled by the necessary devices according to the provision of the rooms.

The Housing the devices and the choice of materials are fulfilled in such a way that the center of gravity with the geometric center of the building or is close to him.

For the best centering of the building ( 1 ), all projecting behind the external surfaces constructions will arrange coaxially on the opposite sides, for example, the building will arrange two balconies leading into the balcony system ( 9 ) are turned on.

The roof ( 5 ) becomes outside ( 4 ) the flowed mushroom-shaped with the structural components that do not have the angle, it is instead of the ordinary roof ridge, the concavity ( 12 ) with no less than a central drain ( 13 ) Fulfills.

The roof of the building ( 5 ) is with the housing ( 4 ) and after the perimeter is without angle, for example, from the oval ledge ( 14 ) opened.

The rainwater is after the central drain ( 13 ) in the magazine, for example the cistern except the building ( 1 ).

The coaxial central drain ( 13 ), inner half of it, the pipe ( 15 ) Set up systems of heating and / or suction ventilation.

In the winter period, the snow is removed from the concavity ( 12 ) of heat of the pipe ( 15 ) and the thawed water is in the magazine.

The cover is seamless, for example, made of resin-like paste, thereby, a best solution of protection of the roof ( 5 ) is at most the smooth outer surface.

The window ( 6 ) and the front door ( 7 ) ( 5 and 6 , the open position is shown by a line) to edge wall apertures completely fill, so to minimize influence of the wind load. The outer glass, and the door leaf convex, which coincide with the outer surface housing ( 4 ).

For the best centering of the building ( 1 ) are two balconies ( 16.1 and 16.2 ) placed coaxially on the opposite sides of the building.

The balconies ( 16.1 and 16.2 ) will have the adjoining construction, ie there is the possibility of the balcony in the building ( 1 ) and to bring it out. For this the balconies ( 16.1 and 16.2 ) from the components of the balcony system ( 9 ) educated.

The balcony system ( 9 ) consists ( 7 ) two balcony slabs ( 17.1 and 17.2 ), the frame ( 18 ), two protective panels ( 19.1 and 19.2 ), four side railings ( 20.1 . 20.2 . 20.3 . 20.4 ), two support springs ( 21.1 and 21.2 ), and two sets of roller trains ( 22.1 . 22.2 ).

The frame ( 18 ) hard connected to the carcass of the building ( 1 ) Construction from the U-beam, along the balcony slabs from both sides ( 17.1 and 17.2 ) after the roller trains ( 22.1 . 22.2 ).

At both ends of the frame ( 18 ) the rollers ( 23.1 . 23.2 ), after which the balcony slabs ( 17.1 and 17.2 ) are rolled.

From the front of each balcony ( 16.1 and 16.2 ) is the protective panel ( 19.1 and 19.2 ) set up.

The protective panels ( 19.1 and 19.2 ) convex, are so evenly arranged that in the outermost position completely the openings of the balcony doors ( 24.1 and 24.2 ) shut off. (On 7 is shown by the dash).

The side railings ( 20.1 . 20.2 . 20.3 . 20.4 ) ( 8th ) of the folding construction will be considered the telescopic grid. They consist of no less than two horizontal belts ( 25 ) and necessary quantities of the stands ( 26 ). They become a protective panel ( 19.1 . 19.2 ) on the one hand, and on the other hand, to the openings of the balcony door ( 24.1 and 24.2 ) consolidated.

The horizontal belts ( 25 ) are calculated from the necessary quantity of separate plates ( 27 ), hinged together with each other, while the fork ( 28 ) steadfastly serves as a joint ( 29 ). When completely folded, the railings hide ( 20.1 . 20.2 . 20.3 . 20.4 ) in the niche of the door opening ( 24.1 . 24.2 ).

To every balcony plate ( 17.1 and 17.2 ), the flat support spring ( 21.1 and 21.2 ) fixed from below, while the opposite edge supports them freely on the wall of the building ( 1 ).

The base ( 6 ) represents the rectangular frame on which the housings ( 4 ) and is strongly associated with it.

The building ( 1 ) is provided with the full set of necessary engineering devices: from the sewer, the water pipe, the electric power supply, the gasification, the telephone and the television.

For the supply from the sewerage becomes the flexible connection to the sewer stands as the bellows or the Fernfaltenschlauch be recycled with the tapered bushes.

For Supply from water, electric power, gas, a cable phone and the television will be the flexible armored hoses that placed on the springy drum devices are to be utilized within the building.

The adaptive support system ( 2 ) consists ( 9 . 10 ) of four parts: the supporting parts, the moving part, the fin and the adapter.

The support part is a static support system and is no less than a central support ( 30 ), not less than four angle brackets ( 31.1 . 31.2 . 31.3 . 31.4 ).

The central support ( 30 ) is in the geometric center of the building ( 1 ), for example, at the intersection of diameters or diagonals of the base ( 6 ).

The pillars ( 31 ) are located in such a way that the composite carriers ( 32.1 . 32.2 and 32.3 . 32.4 ) in four angular zones of the building, for example, in four angles.

The pillars ( 30 and 31 ) are foundations and are in the earth, for example, as the piles deepened. The base of the building ( 6 ) is free, ie without attachment, relies on the support member.

The movable part holds the building in action on the air flow, and consists of no less than two pairs of composite supports ( 32.1 . 32.2 and 32.3 . 32.4 ). Each pair of composite supports ( 32.1 . 32.2 and 32.3 . 32.4 ) is cruciform with each other by means of the joints ( 34.1 . 34.2 . 34.3 . 34.4 ) fixed to the central stand ( 33 ), to line up with each other so that set up.

The central rod ( 33 ) is based on the central support ( 30 ) and is strongly associated with it.

Each composable carrier ( 32.1 . 32.2 . 32.3 . 32.4 ) with the base ( 6 ) Building of the joints ( 35.1 . 35.2 . 35.3 . 35.4 ) is connected and free relies on the supports ( 31 ).

Each consists of the composable straps ( 32 ) of two bodies: the finer fuselage ( 36 ) and the slider hull ( 37 ), which are indivisibly connected with each other, the scenery ( 38 ) and the slider ( 39 ).

The finisher's marsh ( 36 ) is from above ( 11 ), and the slider hull ( 37 ) is from below the carrier ( 32 ).

Every finser marsh ( 36 ) represents the U-shaped carrier.

Everyone is the slider hull ( 37 ) Pipe, for example, the square pipe, and will fold ( 40 ) along the entire length of the lower edge.

On the central support ( 30 ) are not less than two pairs of joints ( 41.1 . 41.2 and 41.3 . 41.4 ) so firmly established that with each of them the appropriate backdrop ( 38 ) connected is.

Every scenery ( 38 ) couples the central support ( 30 ) with the slider ( 39 ) in the slider hull ( 37 ) and is free along the fold ( 40 ) push.

The Fin is device for reducing the inclination of the building at impact on the air stream, what the conditions of stay of the people in the residential buildings and works of mechanisms of both devices official as well as the production building improved.

The Fin represents the system of four identical parts in each U-shaped vehicles are located.

Each system consists of the load ( 42 ), the cylindrical spring ( 43 ) and the rope ( 44 ). The cylindrical spring ( 43 ) is normally compressed and is with the central stand ( 33 ) on the one hand and the load ( 42 ) on the other hand.

The rope ( 44 ) couples the load ( 42 ) with the appropriate backdrop ( 38 ).

The load ( 42 ) glides easily or within the U-shaped support ( 36 ) to be rolled.

The adapter ( 12 ) Self-adjusting the position of the building under the influence of it on the air stream.

The adapter consists of two pairs of hydraulic windlasses ( 45 and 46 . 47 and 48 ). Each pair of lifting winches with the corresponding pair is the composite carrier ( 32 ) and will set up under their free ends.

Each pair of windlasses is of two pipelines ( 49 and 50 . 51 and 52 ) connected. The hydraulic cylinders and pipelines are completely filled with hydraulic fluid.

The protection complex ( 3 ) serves for the protection of the building from the large fragments of trees and surrounding houses, stones and the like m., as well as dust and sand. The protection complex ( 3 ), consists of two components: the crowns ( 53 ) and the fairing grid ( 54 ) with the camouflage.

The crown ( 53 ) consists of located evenly around the building ( 1 ) Ribs ( 55 ), connected to each other on the frame ( 56 ), with the base ( 6 ) connected is.

The crown ( 53 ) is made of especially durable material, for example, steel which is capable to endure multiple blows of shards and stones.

The panel grille ( 54 ) with camouflage, represents a lattice in whose body two types of camouflage are fixed: sound-absorbent material ( 57 ) and the deduster ( 58 ).

For example, such grille serves trim grille DE 20 2006 000 948 ,

The panel grille ( 54 ) becomes the rip pen ( 55 ) Crowns ( 53 ) consolidated.

The multipiece buildings according to the invention will have the discrete construction, ie between the floors ( 59 . 60 ) will consist of clear, and each floor will arrange its support system with the moving part and the fin. The message between the floors is realized with the lift ( 61 ) located in the central supporting structure ( 62 ).

The Building invisible to the wind, Windstealthyhaus, works the following way.

At the stage of designing determine the weight of the building ( 1 ), distribute the equipment and the component for providing the centering of the construction.

Choose the shape of the surface according to the suspected wind rose.

The Normal regime, d. H. the regime of normal operation, that of the Winds 30-49 km / h or up to 7 degrees after the Beaufort scale (the fresh breeze, the strong breeze and the strong wind).

In the stationary regime, the building is based ( 1 ) on the immovable part of the adaptive support system ( 2 ). All communications of the building ( 1 ) are connected to the networks.

The Protective regime that winds from 49-70 km / h or up to 9 degrees after the Beaufort scale (the strong wind, the storm, the strong storm). The tree trunks are broken, there will be roofs and roofing of surrounding houses tore off.

The wind carries the fragments and will prune them to the building that separates them from its protective complex ( 3 ), especially of the crown ( 53 ) encountered.

Of the Wind becomes the surface of the building and, considering blow on his form, meets the obstacle in the building not, will pass.

The Lines of wind draft mainly the tangents to the surface of the building.

The Oblique regime, winds of 70-100 km / h or up to 10 degrees after the Beaufort scale (the strong storm, the full storm). The roofs, the cover and the pipe of the surrounding houses are demolished, which Trees are torn out with the root.

The wind not only carries the fragments, but the whole pipes of the trees, the stones and the parts of the walls, and will prune them to the building that separates them from its protective complex ( 3 ), especially of the crown ( 53 ) encountered. Much dust and sand in the air streams. From all sides the howling sounds that destructively affect people's psyches are carried.

The dust, sand and clay are met by the grille ( 54 ). Into the building sound is muffled, or tones of the lowered frequency are audible.

The storm brings windy streams evidently expressed in the direction of the surface of the building:
The "frontal wind" - strikes straight ahead, and to strive to cut through the wall or tear down the projecting parts of the facade;
The "wind downwind" - is directed from below buildings, and tends to tilt it towards the wind;
The «top wind» - is directed from above on a roof of the building, and to aspire to demolish a roof, a roof and a pipe of the building, and also means of telecommunication.

The "frontal wind" after the meeting with the surface of the building will down and up, then to the corresponding Shared winds.

The smooth curved shape of the outer surface and the Window allows enough strong punches to endure the wind.

The Outer surface covered by the fabric, guaranteed after foamed plastic, small elasticity especially, which clears the first blow of the wind.

Further you have to consider the portion character of the wind load, when the break follows right after the shock portion.

Of the frontal blow of the wind, divided up and down, go there in the course of the break and meet the next one Portion of the lower wind and the upper wind in the opposite phase. From this, the power of these outermost winds becomes partial deleted.

Since the building with the balcony system ( 9 ) is excluded, as destruction of a balcony, and emergence of an additional moment of collapse of the building.

The wind acts on the protective panel ( 19.1 or 19.2 ) of the balcony, and its plate ( 17.1 or 17.2 ) is placed in the frame ( 18 ) after the rolls trains ( 22.1 . 22.2 ) and the rollers ( 23.1 . 23.2 ). The support spring slides ( 21.1 or 21.2 ) inside the wall, and it put the railings of the balcony at the expense of turning the plates ( 27 ) around the stands ( 28 ) together. When completely folded, the railings hide ( 20.1 . 20.2 . 20.3 . 20.4 ) in the niche of the door opening ( 24.1 . 24.2 ).

After the interruption of the effect of the impact of the wind, the balcony returns under the action of the support spring ( 21.1 or 21.2 ) back to the starting position.

The "downwind" to aspire to move the building and tilt it to the earth. It hampers the moving part of the adaptive support system ( 2 ).

The displacement force, its horizontal component, hinders the durable union of the central stand ( 33 ) with the central support ( 30 ).

The vertical component, to strive to lift the building upwards. It hinder the composable carrier ( 32 ).

She climbs along with the base ( 6 ) up.

In doing so, the support ( 31 ) and rotate around the joints ( 35 and 41 ) around. In such a way, the composite carrier ( 32 ) the building from the violent climb upwards, and paired her lies on his prop ( 31 ) and hinders the conversion of the building.

The building with each portion of the wind is lifted upwards and in the course of the break it falls downwards, as if rocking. And here begins the fin. When the composite carrier ( 32 ), the scenery ( 38 ) the slider ( 37 ) and the rope connected to it ( 44 ) move. In doing so, the load ( 42 ) to the opposite end of the U-shaped support ( 36 ) push. When the composite carrier ( 32 ) down, the spring ( 43 ) of the load ( 42 ) back to the place.

This Last stands up to the force of the rise of the building and contrary, in such a way happens the stabilization of the Location of the building under the effect of the wind. The swings of the Building is smoothed.

The Destruction regime, is from the winds 100-130 km / h or up to 12 degrees after the Beaufort scale (the Stormwind, the hurricane). The roofs, the cover and of the pipe of the surrounding houses are demolished, the trees become with the root, everywhere the damages and the great destructions escaped.

In Operation of all protection and support devices listed above. But the hurricane is different from the bigger one Speed of the wind and the denser winds wave close behind the effectiveness of the shock wave of the explosion. Therefore, if the Destruction of the wall of the building did not happen the frontal wind gets heavy on riding and the wind down divided.

On such way, the action on top of the building becomes and created from below, it is as it were squeezed.

It This compression is the ratio of the proportions of the building and its shape. The lace wind as whether it is going down from the surface of the building out. The lack of projecting components of the facade bears at.

The Shape of the roof does not hinder the movement of the wind, and in contrast the wind pushes into the concavity of the roof the building from above and this pressure hinders the thwarting of the Building from the low-wind.

The downwind wind to aspire to demolish the building from the props and, firstly, lift it up. It will become the opposition of the mobile adaptive support system ( 2 ).

in the inclined state represents the lower surface of the building already the obstacle to the wind, and it is dangerous.

Therefore the adapter starts.

Together with the building move upwards the free end of the composite carrier ( 32 ) and pulls up the stick of the windlass ( 45 ), for example, in the pair ( 45 . 46 ). The piston of the windlass ( 45 ) comes after the pipeline ( 49 ) hydraulic fluids out, and it happens the overflow under the pistons of the paired windlass ( 46 ). The piston of the windlass ( 46 ) move upwards and there is an overflow of hydraulic fluid after the pipeline ( 50 ) under the pistons of the paired windlass ( 45 ).

The stick of the windlass ( 46 ) move up together with the piston and lift the free end of the paired composite carrier ( 32 ).

Such transformations are carried out by all pairs of the adapter, and the whole building rises, missing the wind wave by up accordingly.

It It is understood that in every concrete realization of the building utilize those or other concrete constructive solutions but all of these meet the requirements of given invention in which the idea of hard construction of the idea of flexible construction with adaptive management is replaced.

From that the delivered aim of the invention is achieved: the construction, the over the properties of invisibility for the strong wind has, and protected from the rest Extermination factors caused by the strong wind, too create.

1

building

2

adaptive support system

3

protection complex

4

casing

5

top, roof

6

Base

7

window

8th

entrance

9

balcony system

10

parabola

11

circle

12

concavity

13

outflow

14

ledge

15

pipe

16

balcony

17

balcony slab

18

frame

19

paneling

20

railing

21

support spring

22

pulley block

23

roller

24

opening

25

belt

26

pole

27

plate

28

fork

29

joint

30

Central support

31

angle bracket

32

carrier

33

central pole

34

joint

35

joint

36

Flosserumpf

37

Gleitstücksrunpf

38

scenery

39

slide

40

fold

41

joint

42

load

43

feather

44

rope

45

hydraulic windlass

49

pipeline

53

Crown

54

cladding grid

55

rib

56

frame

57

Sound-absorbing material

58

dust collectors

59

Ground floor

60

upper floor

61

lift

62

Central support

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 4329954 [0008]
• - DE 3827503 [0008]
• - DE 9214982 [0009]
• - DE 19904754 [0011]
• DE 202007006739 [0012]
• - DE 102005008446 [0015]
• DE 2328430 [0017]
• - DE 2932034 [0019]
• EP 79646 [0019]
• US 3968411 [0019]
• - RU 2005130149 [0021]
• - DE 202006000948 [0146]

Cited non-patent literature

• - Green paper from the commission to the council, the european parliament, the european economic and social committee and the committee of the regions. Adapting to climate change in Europe - options for EU action. Delegations want to find attached Commission document SEC (2007) 848 [0002]
• - Lecture B. Bolin (Sweden) "THE CLIMATE AND THE SCIENCE, KNOWLEDGE AND THE UNDERSTANDING, NECESSARY FOR ACTION IN CONDITIONS OF UNCERTAINTY" [0004]

Claims (3)

Building invisible to the wind, Windstealthyhaus, in the component of a building ( 1 ) and a support system ( 2 ), while the buildings ( 1 ), a housing ( 4 ), a roof ( 5 ), a base ( 6 ), not less than a window ( 7 ), no less than an entrance door ( 8th ), and no less than a balcony ( 16 ), characterized in that a protective complex ( 3 ) will order; 1.1 the center of gravity of the building ( 1 ) agrees with the geometric center or is close to it; 1.2 the housings ( 4 ) will consist in the form of the complicated figure of the axial rotation of the conical cuts, to the majority of the points of the line of the draft are the tangents, 1.2.1 the distance between the focal points of the upper and lower figures of the axis rotation relates to the extent of the larger diameter of vertical central axis of rotation approximately like (1 + π) / π; 1.3 the housings ( 4 ) will consist in the form of the figure of the axis rotation of the line, 1.3.1 the ratio of the height of the figure to the larger diameter approximately equal to 4: 3; 1.4 the surface of the housing ( 4 ) is made of rolled nontextillic material with low thermal conductivity and high fire resistance; 1.5 the roof ( 5 ) will consist in the circulated mushroom-shaped, 1.5.1 the structural components of the roof ( 5 ) will be without angle, 1.5.2 the roof ( 5 ) wreaths the concavity ( 12 ) with no less than a central drain ( 13 ), 1.5.3 the roof ( 5 ) is with the housing ( 4 ) is hard connected and after the perimeter is from the oval ledge ( 14 ), 1.5.4 the coverage is fulfilled without joints with the maximum smooth surface; 1.6 the window ( 6 ) and the front door ( 7 ) to edge completely fill wall apertures, 1.6.1 a form of an external glass and a door-leaf convex, coinciding with the external surface of cases ( 4 ); 1.7 the building ( 1 ) will be no less than two balconies ( 16.1 and 16.2 ), located coaxially to - arrange opposite sides. 1.7.1 the balconies ( 16.1 and 16.2 ) will have the pushed-over construction, and will be like the balcony system ( 9 ), 1.7.2 the balcony system ( 9 ) is two balcony slabs ( 17.1 and 17.2 ), the framework ( 18 ), two protective panels ( 19.1 and 19.2 ), four side railings ( 20.1 . 20.2 . 20.3 . 20.4 ), two support springs ( 21.1 and 21.2 ), and two sets of roller trains ( 22.1 . 22.2 ), 1.7.3 the framework ( 18 ) is met as the U-beam, and is connected to the carcass of the building ( 1 ) hard-wired, 1.7.3.1 the framework ( 18 ) is from both ends with the rollers ( 23.1 . 23.2 1.7.4 the roller trains ( 22.1 . 22.2 ) are from both sides of the frame ( 18 ), 1.7.5 the protective panels ( 19.1 and 19.2 ) are from the front of each balcony ( 16.1 and 16.2 ), have the convex shape, and agree with the outer surface of the housing ( 4 ) match; 1.7.6 the side railings ( 20.1 . 20.2 . 20.3 . 20.4 ) will have the hinged construction, which is fulfilled as the telescopic grid, and consist of no less than two horizontal belts ( 25 ) and necessary quantities of the stands ( 26 ), 1.7.7 the horizontal belts ( 25 ) are calculated from the necessary quantity of separate plates ( 27 ), articulated to each other on the fork ( 28 ) founded. 1.7.8 the support springs ( 21.1 and 21.2 ) are added to each balcony slab ( 17.1 and 17.2 ) fixed from below, while its opposite edge rests freely on the wall of the building ( 1 ); 1.8 the base ( 6 ) is met as the rectangular frame, and is connected to the housing ( 4 ) durable connected; 1.9 the support system ( 2 ) has the characteristics of adaptability and consists of the support part, the moving part, the fin and the adapter, 1.9.1 the support part becomes no less than central support ( 31 ), and not less than four angle brackets ( 32.1 . 32.2 . 32.3 . 32.4 ), 1.9.1.1 the central support ( 31 ) is in the geometric center of the base of the building ( 6 ), 1.9.1.2 the angle supports ( 32.1 . 32.2 and 32.3 . 32.4 ) are located in such a way that the composite carriers ( 33.1 . 33.2 and 33.3 . 33.4 ) in four angular zones of the building ;. 1.9.2 the moving part consists of no less than two pairs of composite supports ( 33.1 . 33.2 and 33.3 . 33.4 ). 1.9.2.1 each pair of composable supports ( 33.1 . 33.2 and 33.3 . 33.4 ) is cruciform with each other by means of the joints ( 35.1 . 35.2 . 35.3 . 35.4 ) connected to the central stand ( 34 ), 1.9.2.1.1 each pair of composite supports ( 33.1 . 33.2 and 33.3 . 33.4 ) will align with each other, 1.9.2.1.2 any composite carrier ( 33.1 . 33.2 . 33.3 . 33.4 ) with the base ( 6 ) Building by means of the joints ( 36.1 . 36.2 . 36.3 . 36.4 ) is connected and free on the supports ( 32.1 . 32.2 and 32.3 . 32.4 ), 1.9.2.2 the central stand ( 34 ) is durable with the central support ( 31 ) connected. 1.9.2.3 each of the composable beams ( 33.1 . 33.2 . 33.3 . 33.4 ) consists of the Flosserumpf ( 37.1 . 37.2 . 37.3 . 37.4 ), the slider body ( 38.1 . 38.2 . 38.3 . 38.4 ), the scenery ( 39.1 . 39.2 . 39.3 . 39.4 ) and the slider ( 40.1 . 40.2 . 40.3 . 40.4 ) 1.9.2.3.1 the finisher fuselage ( 37 ) are located from above, and the slider hull ( 38 ) are from below the carrier ( 33 ), and are indivisibly connected with each other, 1.9.2.3.1.1 each 37 ) is met the U-shaped, 1.9.2.3.1.2 each is the slider hull ( 38 ) Pipe and will fold ( 41 ) along the entire length of the lower edge, 1.9.2.4 every scenery ( 39 ) the slider ( 40 ) and the central support ( 31 ) by means of the joint ( 42 ), 1.9.2.4.1 the slider ( 38 ) is moved along the fold ( 41 ) move freely. 1.9.3 the fin represents the system of four identical parts which in each of the U-shaped beams ( 37.1 . 37.2 . 37.3 . 37.4 1.9.3.1 each consists of four systems from the load ( 43 ), the cylindrical spring ( 44 ) and the rope ( 45 ), 1.9.3.1.1 the cylindrical spring ( 44 ) is normally compressed and is with the central stand ( 34 ) on the one hand and the load ( 43 on the other hand, 1.9.3.1.2 the rope ( 45 ) couples the load ( 43 ) with the appropriate backdrop ( 39 ), 1.9.3.1.3 the load ( 43 ) glides easily or within the U-shaped support ( 37 ) to be rolled. 1.9.4 the adapter will not be less than two pairs of hydraulic windlasses ( 46 and 47 . 48 and 49 ), the pipes connected by two pairs ( 50 and 51 . 52 and 53 ), which are completely filled with hydraulic fluid, 1.9.4.1 each pair of lifting winches ( 46 and 47 . 48 and 49 ) is with the corresponding pair the composite carrier ( 33.1 . 33.2 and 33.3 . 33.4 ), and will set up under their free ends; 1.10 Protection complexes ( 3 ) consist of the crown ( 53 ) and the fairing grid ( 54 ) with the camouflage, 1.10.1 the crown ( 53 ) consists of the ribs ( 55 ) connected indivisibly to the frame ( 56 ), 1.10.1.1 the ribs ( 55 ) are even around the building ( 1 ), 1.10.1.2 the frame ( 56 ) is with the base ( 6 ), 1.10.1.3 the crown ( 53 ) is made of especially durable material which is capable of enduring multiple blows of shards and stones; 1.10.2 the trim grille ( 54 ) with camouflage, will exist as the lattice in whose body two types of camouflage the sound-absorbing substance ( 57 ) and the dedusted ( 58 ), 1.10.2.1 the trim grille ( 54 ) becomes the ribs ( 55 ) consolidated. Building invisible to the wind, Windstealthyhaus, according to claim 1, characterized in that the building ( 1 ), containing two and a few floors, discreetly with the free space between the floors ( 59 . 60 ) 2.1 each floor is to be arranged by its support system containing the moving part and the fin; 2.2 the message between the floors is realized with the lift ( 61 ) located in the central supporting structure ( 62 ). Building invisible to the wind, Windstealthyhaus, according to claim 1 and 2, characterized in that the building ( 1 ) is supplied with the full set of necessary engineering devices: from the sewer, the water pipe, the electric power supply, the gasification, the cable telephone and the television; 3.1 the coaxial central outflow ( 13 ), within it, the pipes ( 15 ) Set up systems for heating and / or suction ventilation; 3.1.1 the rain and thawed water act after the central outflow ( 13 ) located in the magazine except the building ( 1 ); 3.2 the sewerage is fulfilled by the flexible connection to the sewer stands as the bellows or the remote hose with the conical bushes; 3.3 the water supply, electricity supply, gasification, telephone and television are fulfilled by the flexible armored hoses placed on the spring-loaded drum devices set up inside the building.