DE10350404A1 - landscape roof - Google Patents

Abstract

The invention relates to a landscape canopy. DOLLAR A According to the modular landscape roofing is designed for very large areas and includes at least one Zuluft- and at least one exhaust chimney for targeted air supply and discharge for the area below the canopy. In addition to the weather protection function of the construction, integrated energy generation from various regenerative sources is also possible.

Description

The The invention relates to a landscape roofing according to the preamble of claim 1.

To the prior art are transparent roofs, for example made of glass or plastic known in environmental research, in the Plant breeding or in the leisure and cultural operation apply. By way of example the Biosphere 2 Center in Arizona / USA or the Eden Project in Cornwall / UK to be named. here we can scientifically studied complex plant communities and these ecosystems Visitors introduced and explained become. In these major projects became the base area for the Construction phase fully utilized and then the plant and insect communities artificially built. For For the purpose of production, studies have already been carried out in the Netherlands for large greenhouses developed maritime locations. To examine existing ecosystems in more detail to be able to is the large-scale superstructure of existing stocks, like forest areas, water areas or agricultural land necessary, the stocks during the Construction phase in no way impaired be allowed to.

The so far for Leisure purposes are built large-scale building each unique and can not at the same room height be extended as desired. For Air conditioning is a high technical level for these projects Effort and a big one Energy requirement required.

One solar updraft power plant with a collector diameter of 240 m and a tower height of 195 m was built years ago in Manzanares, Spain and operated successfully. A bigger updraft power plant with a collector diameter of 3600 m and a tower height of 950 m is planned in Australia, as stated in the VDI news 2003/21 is disclosed. This construction consists in the collector area small area Modules with low height and small column spacing. In this construction is primary Solar energy use provided.

at such Aufwindkraftwerken very large areas are roofed, the further use as habitat or biotope for Plants, animals and humans are largely lost. A secondary use is possible only in partial areas and with low intensity.

It is therefore the object of the invention, available natural terrain on the one hand as a habitat for plants and / or animals and / or humans, preferably no external energy artificial supplied must be, but the regenerative energy sources of the environment can be used.

outgoing from the preamble of claim 1, the object is achieved by the features specified in the characterizing part of claim 1.

With the roof of the invention is it now possible very big, level or hilly surfaces, yes huge terrain a surface, which can take up several square kilometers, as a habitat for plant production and / or human habitation. With the in the roofing construction integrated energy recovery facilities can be used for the operation of the Furnishings necessary Energy generated partly or wholly from renewable energy sources become. It can for example, surfaces, which are below the collector surfaces of updraft power plants are as cultural areas or artificial Habitat for Humans and animals are used. Desert areas can be considered Habitat can be harnessed and it can be areas that are normally deprive the use as a habitat, as air-conditioned marine surfaces and harnessed. An integrated use of the natural renewable energy sources, such as solar, wind and water power is possible.

When landscape roof For the purposes of the invention, a building is to be understood that from the supports is mounted without using the remaining base and the Adapts topography of the landscape.

advantageous Further developments of the invention are specified in the subclaims.

The Drawings show exemplary embodiments, as well as details the roof of the invention.

It shows:

1 : A construction of lattice towers.

2 : A section of the canopy.

2a : A top view of the canopy 2 ,

3 : An embodiment with rainwater storage.

4 : Device for cleaning and adiabatic humidification of the supply air.

5 : An embodiment for the sea roof with rainwater storage.

6 : An embodiment with combined Aufwindkraft and wind power.

7 : Partial view from above of 6 ,

8th : Enclosure for scientific purposes with lamellar full cover ventilation.

9 : Partial view of 8th from above.

10 : Detail of 8th ,

In the figure descriptions are the same device features the assigned the same reference numerals.

1 shows a lattice mast 1 as a supporting element with a updraft turbine 2 , To the lattice mast 1 are an upper suspension cable 3 and a lower suspension cable 4 attached to the roof 5 wear. In place of suspension cables 3 . 4 You can also use pipes. Section aa shows the top view of the lattice mast 1 with an inner and outer lattice mast. The inner and the outer lattice mast are above the roof 5 Covered with transparent materials. Between the inner and outer lattice mast stairs and pedestals are arranged, which allow a complete, safe accessibility of the space for assembly and service work. The double roofing is necessary for the thermal insulation of the exhaust chimney.

2 shows a portion of the roof of the invention with lattice towers 1a . 1b of which the lattice mast 1a as air outlet with the updraft turbine 2 Is provided. The lattice masts 1b serve for fresh air supply. These masts are from the canopy 5 Covered in a single layer transparent up to the floor area so that the supply air in the floor area can flow into the interior. Due to the design with lattice masts 1b as fresh air supply and lattice masts 1a As exhaust ducts, it is possible to add the roofing modules together without interruption. The lattice mast formed Zuluftkanäle 1b preferably have substantially the height of the canopy 5 , and the exhaust chimneys 1a are higher than the roof for physical reasons 5 , For example, they may be 200 or 300 meters higher than the canopy, but even greater heights are possible for the chimney effect and thereby the power of the wind turbine 2 to increase. This allows a roof without compelling horizontal boundary. Below the canopy 5 there is a network 6 smaller mesh size, which serves as assembly and service network and allows the full and safe accessibility of the envelope surfaces for assembly and service work. Below this network 6 can on this network 6 In addition, a shade can be attached.

3 shows a partial section in which the on the roof 1 collected rainwater in sewer pipes 7 directed and stored there. The sewer pipes 7 stand with the lattice masts 1b and the air outlets 8th in connection. The supply air is thereby on the lattice masts 1b into the sewer pipes 7 and from there via the air outlets 8th led into the interior. The pipes are only filled so far that a sufficient cross section for the air flow remains free. By the contact with the in the sewer pipes 7 stored water, the air is cleaned and cooled adiabatically. In areas where there is insufficient rainwater available, parts or all of the sewer system's pipes can be filled with brackish or sea water to ensure the cleaning and cooling function.

4 shows a detailed view of a humidification system 9 in the upper part of the lattice towers 1b are placed and allow a purification and adiabatic humidification of the supply air with rain, brackish or sea water. Thus, the air conditioning can be done without water in the sewer pipes. By the adiabatic cooling of the supply air in the lattice masts 1b The envelope of the masts is also cooled down. Under certain operating conditions condensation then takes place on the outside of the masts, whereby this condensate can be collected with little effort.

5 shows an embodiment in which a seawater surface with a roof 1 is equipped, being between the canopy 5 and the water surface one or more floors / floors 10 (Deck / Decks) is / are / can be designed for a variety of uses. This floor is suspended from the supporting structure. The foundations 12 The lattice masts can be carried out container-like, to be used in addition to the support function as a rainwater storage. To avoid buoyancy forces is the interior of the container-like foundations 12 the below the sea water level is connected to the sea water area through openings. A mixing of rainwater with the sea water is in this container part through film bags 11 in the foundations where the rainwater is stored, prevented. In the 5 is the bottle-like design of the foundations example of the lattice mast 1a shown. This foundation version is also in principle with the lattice masts 1b possible.

In 6 an embodiment is shown in which for additional energy wind turbines 13 are attached. These are the lattice towers 1b higher executed. That means the pylons 1a and 1b have essentially the same height. The building can thus be provided for Aufwindkraft- and / or wind power.

7 shows a partial view of the canopy from above. This view shows that the wind turbines 13 are arranged offset and a mutual obstruction is avoided.

8th shows an embodiment for scientific purposes, wherein the envelope surface can be opened over the entire surface by the lamellar arrangement of the Eindeckmaterials. The cutout between two lattice masts 1 has in this example with a distance of 100m. The height of the canopy 5 is variable and can be designed according to individual requirements. Thus, the roof can have a distance from the ground, for example, 20 m to 100 m. The lower altitude should be limited by the fact that at least crops or animals and humans can live below. The upper limit is basically open but for practical reasons will usually not exceed a height of 100 to 200 meters.

9 shows the top view of 8th ,

10 shows a detail detail in which the windows 14 the canopy 1 and the lattice masts 1 are open.

in the The following is the roof of the invention be explained in more detail.

According to the roof has proportions, roofing a whole area can. The covered terrain For example, one hectare, one square kilometer or even several square kilometers.

The roofing can be a flat surface or a hilly one Span the terrain. Of the Course of the canopy can, apart from the structural features, the following essentially at a constant distance from the ground run. The roofing consists of modules that are horizontal in any direction in any direction Number can be coupled together.

The roof according to the invention is at least partially transparent and has special preferably over a permeability to light, which does not change the spectral composition of the light, the is called, it should as possible no wavelength of the natural Light, including UV and / or IR radiation be absorbed. It can also roofing used, the defined wavelengths, such as UV-B reduce or completely filter out. It can also defined area shares the canopy as a collector surface for thermal or electric solar energy harvesting units.

As a roofing material For example, glass, quartz glass or plastic can be used. The roofing It can be made of solid sheets of transparent material as well consist of foil.

According to the invention, the roofing preferably with means for energy use or energy production fitted.

These means may be, for example, the known from Aufwindkraftwerken fireplaces, which is a turbine 2 contained and the surrendering under the transparent cover air in an upward flow up into the environment. For example, depending on the size and geometry of the roofing at least one exhaust chimney and at least one Zuluftkamin be provided, which serve to generate energy. The module-like roofing can have an exhaust chimney and at least one supply air chimney per module for the use of wind power. In a preferred embodiment, a plurality of modules can be assigned together an exhaust chimney. Furthermore, several modules together may be associated with a supply chimney. The ventilation of the room under the canopy 5 then takes place through the supply air and exhaust chimneys 1a . 1b by nature train.

In a further preferred embodiment is the roofing designed such that they from the Zuluftkaminen to the exhaust ducts preferably increases conically in height. This will be the ventilation favored.

On the canopy can Even solar collectors of any kind can be installed over whole or partial areas, the solar energy either photovoltaic or by conversion in heat use.

Farther can in the pipes that drain the rainwater from the roof, turbines be attached by the dynamic pressure of the rainwater flowing out are driven.

is the canopy attached to the sea, so can Tidal forces are also used to generate energy in the foundation area.

For the structural design of the canopy, in principle, all known constructions come into consideration. So glass plates of any geometry, for example, can be used with rectangular dimensions. The glass can do that be framed within the appropriate geometry. Plastic plates or foils can also be clamped in these frames.

In a particularly preferred embodiment is the roofing between masts, particularly preferably lattice masts, spanned, because these are particularly cheap and, for example, in developing countries with desert regions cost-saving can be installed. This can be very size Support distances of 100 m and more can be realized with known materials and technologies.

The lattice masts 1 can particularly preferably be designed double-shelled, that is, there are two masts arranged substantially concentric, which preferably leave a gap, which is formed, for example, accessible by stairs and intermediate floors. It may, for example, steel constructions han, as used in electricity pylons, so large-mesh braces that form a mast. Here, the inner masts can be designed as chimneys for the Aufwind energy. For this purpose, the mesh-like struts are covered with flat materials. Furthermore, the outer masts can be covered with sheet materials, so that the gap between the inner and outer mast is limited by at least one wall.

In a particularly preferred embodiment, the spaces between the struts of the inner and / or outer masts are covered with transparent material, which preferably has a high solar transparency. This material can - analogous to the roof - made of glass, quartz glass or plastic or a plastic film. The advantage of the optically transparent design of the carrier masts is that as little shadow as possible is thrown onto the roofed area. In place of the lattice masts 1a . 1b For example, other equivalent constructions may be used, such as concrete columns having the same structural properties. These can be double-walled with the same installations, namely stairs and pedestals, analogous to the lattice masts.

The roofing can be attached to the masts by carrying parts. The roofing is then hanging suspended from the upper suspension rope or a support net with ropes. In a preferred embodiment the suspension cables split above the canopy in several ropes, leading to the corners of the large roofing frame to lead.

There the spanned area is very big, it is particularly preferred, below the canopy, a walk-in grid or to stretch cables, of which more support cables lead to the canopy with which they are then attached. In this way, the canopy secured against interference.

Examples:

Lattice masts for the support and chimney function with thermal insulation:

The lattice masts 1 be performed bivalve in the preferred embodiment and covered inside and outside in certain areas transparent. As a result, on the one hand the shading of the soil under the roof 5 diminished and on the other hand, the double roofing acts as a thermal insulation. The lattice masts 1a . 1b can be used both as supply and exhaust chimneys (energy production) and the area between the two shells can be used as a walk-in area for assembly and service work. The exhaust chimney can only be used for ventilation, or with an integrated turbine 2 , can also be used for energy. This design allows high stability with reduced material costs ( 1 ).

The roofing 5 is hanging on the upper suspension cable or support network (see Daimler Stadium, Stuttgart) suspended with vertical ropes. The vertical suspension cables split above the roof 5 in several weaker ropes, which lead to the vertices of large-scale Eindeckrahmen. Thus, the mesh size of the support network is a multiple of the Eindeckrasters. Below the canopy is a walk-in grille 6 with a mesh size of, for example, about 40 cm, so that the canopy can be mounted safely and safely repaired in case of damage. For Sogsicherung the supporting cables of the construction are arranged mirror-inverted also under the roof ( 2 ).

With this construction are great Spans with 100 meters and more and very high interior heights possible - as in the Suspension bridge construction - only from the supports can be mounted from without having to enter the subsoil.

ever according to location and climatic conditions are different versions possible:

Version for temperate climates:

In climatic zones where an exchange of air, without cooling the air is sufficient and the rainwater does not need to be stored, because sufficient groundwater or surface water is available, the supply air is led from the roof level into the interior via the low pylons covered with a single layer and distributed in the ground area. The high exhaust chimney sucks in the warm air below the roof and ventilates the room by natural draft without additional energy consumption. Above the canopy 5 the exhaust chimney is covered transparent. Depending on the roofing and location, a turbine for energy can be installed in the fireplace, in which case a double-shell roof of the fireplace is advantageous.

Version for arid and semi-arid climates:

In arid and semi-arid climates, in addition to rainwater storage, adiabatic air cooling and shading of the interior are also beneficial. The rainwater can be stored in Oberidischen ponds and / or in underground cisterns and / or in a sewer network. If the sewer pipes are only partially filled and the free space used to guide the cooling air, then the air is cooled by the adiabatic humidification without external energy expenditure ( 2 . 4 ). Use of the supply chimneys as a humidifier is also possible. It can rain or brackish, or sea water in the upper part of the fireplace distributed (sprayed) and the supply air adiabatically cooled and cleaned (dust). At high air humidity levels in the interior it can come to the roof of the fireplace to the strong, usable condensation, which can be used for fresh water production. If shading (eg slat shading) is installed below the level of the assembly and service network, then this can also be used as a solar absorber for further energy production. Thus, the air in the upper area is also heated, whereby the performance of the Aufwindkraftwerkes is additionally promoted.

Version for maritime locations:

At shallow water, prefabricated, large-volume storage facilities in dry docks can be prefabricated, partially flooded, towed to the intended offshore location, flooded and lowered there. These memories are then used both for rainwater storage and as a foundation for the overlying construction. In order to prevent the mixing of rainwater with the seawater, a foil bag is present in each of the storages ( 5 , Bez. 11 ). Such film bags can also be arranged directly in the seawater and fixed to the foundations against drift.

Depending on the depth of the sea and the need for water, all or only the foundations of the exhaust chimney are designed as storage tanks. The lattice masts can also be used with wind turbines ( 6 , Bez. 13 ). For this purpose, the masts, which are otherwise used only for the supply air, can be made higher. ( 6 ).

The foundation can be used as a support for facilities for hydropower use such as wave energy, tidal power use and / or use of the ocean current. In addition, the foundations can be used to fix nets so that large-scale fish farming can be operated below the building. Basically, this solution is also without foundations, on floating air-filled containers (as with oil platforms see:
http://www.abb.com/GLOBAL/SEITP/SEITP255.NSF/c27faeb75a27a776c1256c6a0047a887/5f085ef2a121de24c1256c7600511c7e/$FILE/ABB%20Group%20Technology%20Report,%202002 German.pdf) possible. The carrier must be clamped horizontally only with ropes.

Execution for scientific use:

to Examination of larger plant populations are large-scale, highly transparent, dense and on the other hand well ventilated Enclosures needed.

there can the stocks be closed temporarily or permanently to the composition the atmosphere or deliberately changing the internal climate. Large-volume facilities are advantageous for this, because with these the indoor climate can be better controlled.

there are also any internal subdivisions of the interior possible z. B. with vertical curtains like at gyms.

The shown module is arbitrarily expandable, including the modules can be sealed off from each other.

There the envelope surface is easy everywhere and is safely accessible, the utility room is also everywhere (from above) with simple Tools (e.g., electric winches) manually or automatically reachable (e.g. the measured value acquisition).

By the construction of the invention can be great aride or semiarid surfaces for the animal and plant production as well as for human habitation can be harnessed. This can be next to of energy production for Industrial and urban centers create new habitats for the population. In semi-arid areas can then such large-scale buildings to Pflanzenprodutktion find use with high water use efficiency.

The roof of the invention made possible Light is an energy- and water-independent cultivated area for plant production, for living in pleasant climatic conditions for maritime and continental locations as well as for arid, semi-arid and arctic regions. For the construction of the canopy, known low cost technologies and materials with long life and low maintenance requirements can be used. The construction and development of the building can be carried out without use or impairment of the base area, since the structural measures are carried out exclusively from the towers. It is possible to adapt the building to the topography of the landscape. It is a safe accessibility of all Eindeckflächen (roof and side surfaces) at any time from the inside possible. Due to the modular design, the canopy can be extended horizontally in any direction.

Claims (29)

Large-scale landscape roofing, comprising load-bearing elements and cover material, characterized in that in each case at least one of the load-bearing elements is designed as a supply air and exhaust chimney which has a roof ( 5 ) hold. Large-area landscape canopy according to claim 1, characterized in that the supporting elements as lattice masts 1 are formed, which consist of an inner and an outer lattice mast. Large-area landscape canopy according to claim 2, characterized in that the inner and / or the outer lattice mast 1 is covered with materials. Large-area landscape canopy according to claim 3, characterized in that the materials at least partially translucent are. Large-area landscape canopy according to one of claims 1 to 4, characterized in that the exhaust elements formed as a chimney bearing elements with a Aufwindturbine ( 2 ) are equipped. Large-area landscape canopy according to one of claims 2 to 5, characterized in that the space between the outer and inner lattice mast 1 walkable designed. Large-area landscape canopy according to claim 6, characterized in that between the inner and outer lattice mast 1 a staircase and / or at least one pedestal is located. Large-area landscape canopy according to one of claims 1 to 7, characterized in that the roofing 5 by means of carrying ropes 3 or supporting tubes, as in a bridge construction, is worn. Large-area landscape canopy according to one of the claims 1 to 8, characterized in that the roof at least partially transparent is. Large-area landscape canopy according to claim 9, characterized in that the roof either for natural Light is permeable or chosen wavelengths absorbed. Large-area landscape canopy according to one of claims 1 to 10, characterized in that the roofing 5 made of glass or plastic plates or of films. Large-area landscape canopy according to one of the claims 1 to 11, characterized in that they are provided with means for generating energy is equipped, which use the ambient energy. Large-area landscape roofing according to claim 12, characterized in that the means for energy production at least one component from the group consisting of: a) wind turbines ( 13 ) b) solar energy production units and c) water turbines. Large-area landscape canopy according to one of the claims 1 to 13, characterized in that they contain means for collecting of rainwater Large-area landscape canopy according to one of claims 1 to 14, characterized in that it has sewer pipes ( 7 ), which are embedded in the ground. Large-area landscape canopy according to claim 15, characterized in that the sewer pipes ( 7 ) with air outlets ( 8th ) which connect to the covered area. Large-area landscape canopy according to one of claims 1 to 16, characterized in that it has a humidifying system ( 9 ). Large-area landscape canopy according to one of claims 1 to 17, characterized in that it is connected to lower supporting cables ( 4 ) or supporting pipes ( 4 ), which cover the roof ( 5 ) by means of a connection against suction forces stabili Sieren. Large-area landscape canopy according to one of the claims 1 to 18, characterized in that under the roof Walk-in grid structures for Seviceworks are appropriate. Large-area landscape canopy according to one of the claims 1 to 19, characterized in that the canopy at least partially equipped with shading means. Large-area landscape canopy according to one of the claims 1 to 20, characterized in that the roof comprises discs, the open can be. Large-area landscape canopy according to one of the claims 1 to 21, characterized in that it anchors on the bottom of a body of water is and that under the canopy a usable area consisting of one or more levels is suspended. Large-area landscape canopy according to one of claims 1 to 22, characterized in that below the bottom container-like foundations ( 12 ). Large-area landscape canopy according to claim 23, characterized in that the container-like foundation ( 12 ) is lined with a foil bag. Large-area landscape canopy according to one of the claims 22 to 24, characterized in that the construction is floating on buoyancy tanks stored and anchored with ropes against drift on the ground. Large-area landscape canopy according to one of the claims 1 to 25, characterized in that the roof is constructed of modules. Large-area landscape canopy according to claim 26, characterized in that each exhaust chimney at least one module is assigned, from which it dissipates the exhaust air. Large-area landscape canopy according to claim 26 or 27, characterized in that each supply chimney at least one module is assigned, which supplies with fresh air becomes. Large-area landscape canopy according to one of claims 1 to 28, characterized in that the roof ( 5 ) increases in height from the supply air chimneys to the exhaust chimneys.